{
 "cells": [
  {
   "cell_type": "markdown",
   "metadata": {
    "id": "-VAb-v6K0EOy"
   },
   "source": [
    "# Programmatic Molecular Docking \n",
    "\n",
    "### Based on Vina-derived Smina. Obabel is used to calculate the protein charges. The docking grid is defined as the centre of the native ligand.\n",
    "\n",
    "- This notebook is written by https://github.com/quantaosun\n",
    "- what you get is ***the docking score + docked complex + a 2D image + a 3D interaction pymol session file*** \n",
    "- the docked complex and 2D image are readily to be used, The 3D pymol session need to be downloaded to a local pymol for further polish if you want a publication quality"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {
    "id": "6KKs2IBRXDUh"
   },
   "source": [
    "# Please provide PDB ID and ligand structure you want to dock with"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 1,
   "metadata": {
    "cellView": "form",
    "colab": {
     "base_uri": "https://localhost:8080/"
    },
    "id": "s5B8su8nB0mS",
    "outputId": "61e9724d-a815-489b-dae8-cb75cc0bf59b"
   },
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "/home/jovyan\n",
      "--2023-03-13 06:25:15--  https://files.rcsb.org/download/3HTB.pdb\n",
      "Resolving files.rcsb.org (files.rcsb.org)... 132.249.210.234\n",
      "Connecting to files.rcsb.org (files.rcsb.org)|132.249.210.234|:443... connected.\n",
      "HTTP request sent, awaiting response... 200 OK\n",
      "Length: unspecified [application/octet-stream]\n",
      "Saving to: ‘3HTB.pdb’\n",
      "\n",
      "3HTB.pdb                [ <=>                ] 161.13K  1.05MB/s    in 0.2s    \n",
      "\n",
      "2023-03-13 06:25:16 (1.05 MB/s) - ‘3HTB.pdb’ saved [164997]\n",
      "\n"
     ]
    }
   ],
   "source": [
    "#@title Input expected from the user\n",
    "path = \".\" #@param {type:\"string\"}\n",
    "%cd '{path}'\n",
    "PDB_ID = \"3HTB\" #@param {type:\"string\"}\n",
    "pdb = PDB_ID + \".pdb\"\n",
    "! wget https://files.rcsb.org/download/$pdb\n",
    "#@title Ligand three-letter name\n",
    "Ligand = \"JZ4\" #@param {type:\"string\"}\n",
    "smiles = \"c1ccccc1\" #@param {type:\"string\"}\n"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 2,
   "metadata": {
    "id": "3o2JMZs-c5XN"
   },
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "--2023-03-13 06:25:17--  https://sourceforge.net/projects/smina/files/smina.static/download\n",
      "Resolving sourceforge.net (sourceforge.net)... 104.18.11.128, 104.18.10.128, 2606:4700::6812:b80, ...\n",
      "Connecting to sourceforge.net (sourceforge.net)|104.18.11.128|:443... connected.\n",
      "HTTP request sent, awaiting response... 302 Found\n",
      "Location: https://downloads.sourceforge.net/project/smina/smina.static?ts=gAAAAABkDsHN5TvzSiEctIN_DnU8A1Q73bpkta_hR19oGZPvKW_EwtYTDed8yT0SOGwALayUUQMYx8rCbhu0ffU210Ov4KO3LQ%3D%3D&use_mirror=cfhcable&r= [following]\n",
      "--2023-03-13 06:25:17--  https://downloads.sourceforge.net/project/smina/smina.static?ts=gAAAAABkDsHN5TvzSiEctIN_DnU8A1Q73bpkta_hR19oGZPvKW_EwtYTDed8yT0SOGwALayUUQMYx8rCbhu0ffU210Ov4KO3LQ%3D%3D&use_mirror=cfhcable&r=\n",
      "Resolving downloads.sourceforge.net (downloads.sourceforge.net)... 204.68.111.105\n",
      "Connecting to downloads.sourceforge.net (downloads.sourceforge.net)|204.68.111.105|:443... connected.\n",
      "HTTP request sent, awaiting response... 302 Found\n",
      "Location: https://cfhcable.dl.sourceforge.net/project/smina/smina.static [following]\n",
      "--2023-03-13 06:25:18--  https://cfhcable.dl.sourceforge.net/project/smina/smina.static\n",
      "Resolving cfhcable.dl.sourceforge.net (cfhcable.dl.sourceforge.net)... 146.71.73.6\n",
      "Connecting to cfhcable.dl.sourceforge.net (cfhcable.dl.sourceforge.net)|146.71.73.6|:443... connected.\n",
      "HTTP request sent, awaiting response... 200 OK\n",
      "Length: 9853920 (9.4M) [application/octet-stream]\n",
      "Saving to: ‘smina.static’\n",
      "\n",
      "smina.static        100%[===================>]   9.40M  20.0MB/s    in 0.5s    \n",
      "\n",
      "2023-03-13 06:25:18 (20.0 MB/s) - ‘smina.static’ saved [9853920/9853920]\n",
      "\n"
     ]
    }
   ],
   "source": [
    "!wget --no-check-certificate https://sourceforge.net/projects/smina/files/smina.static/download -O smina.static 2>&1 1>/dev/null\n",
    "!chmod u+x smina.static"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 3,
   "metadata": {
    "id": "QxFkBBWq0EO1",
    "tags": []
   },
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "2022.09.4\n"
     ]
    }
   ],
   "source": [
    "import sys\n",
    "import os\n",
    "from rdkit import Chem\n",
    "from rdkit.Chem import AllChem\n",
    "from rdkit.Chem import Draw\n",
    "from rdkit.Chem.Draw import IPythonConsole\n",
    "from rdkit.Chem import DataStructs\n",
    "from rdkit.Chem import RDConfig\n",
    "from rdkit.Chem import rdBase\n",
    "print(rdBase.rdkitVersion)"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {
    "id": "AIUJdJuLRzs4"
   },
   "source": [
    "# Prepare receptor"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 4,
   "metadata": {
    "id": "qWUs6wyNdFGh"
   },
   "outputs": [],
   "source": [
    "!grep -v -e \"{Ligand}\" -e \"SO4\" -e \"CONECT\" -e \"HOH\" -e \"EDO\" -e \"IOD\" {PDB_ID}.pdb >  {PDB_ID}-receptor.pdb\n",
    "!grep \"{Ligand}\" {PDB_ID}.pdb > {PDB_ID}-{Ligand}.pdb\n"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {
    "id": "BFtBn4YxVjYk"
   },
   "source": [
    "# Variable assignment"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 5,
   "metadata": {
    "id": "DTfZKqsqUUDV"
   },
   "outputs": [],
   "source": [
    "Protein_PDB_file_name = PDB_ID + '-receptor.pdb'\n",
    "ligand_name = PDB_ID + '-' + Ligand + '.pdb'"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {
    "id": "pZKX9tmTypnT"
   },
   "source": [
    "# PDBFixer to prepare the receptor"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 6,
   "metadata": {
    "id": "gld65kMi0Ka8"
   },
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Warning: importing 'simtk.openmm' is deprecated.  Import 'openmm' instead.\n"
     ]
    }
   ],
   "source": [
    "!pdbfixer  {Protein_PDB_file_name} --ph=7  --replace-nonstandard --add-residues \n",
    "!cat output.pdb > receptor.pdb"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {
    "id": "Yq55r4UdpoJg"
   },
   "source": [
    "# Caculating charges for receptor"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 7,
   "metadata": {
    "id": "y0IUuw0h0EO7",
    "tags": []
   },
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "1 molecule converted\n",
      "1 molecule converted\n"
     ]
    }
   ],
   "source": [
    "#@title Target and native ligand preparation before docking\n",
    "#!obabel {Protein_PDB_file_name} -xr -O receptor.pdbqt\n",
    "!obabel receptor.pdb -xr -O receptor.pdbqt\n",
    "!obabel {ligand_name} -O native_ligand.pdbqt"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {
    "id": "Nev8kDowRvSK"
   },
   "source": [
    "# Prepare ligand"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 8,
   "metadata": {
    "cellView": "form",
    "id": "BYYzix2oCgF2"
   },
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "1 molecule converted\n"
     ]
    }
   ],
   "source": [
    "#@title Convert SMILE strings to SDF format\n",
    "!echo \"{smiles}\" > ligand2.smi\n",
    "!obabel ligand2.smi -osdf -O small.sdf --gen3d"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 9,
   "metadata": {
    "cellView": "form",
    "id": "2MrRF4lkCjzT"
   },
   "outputs": [
    {
     "data": {
      "text/plain": [
       "1"
      ]
     },
     "execution_count": 9,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "#@title Define small ligand path and number\n",
    "# File locations\n",
    "sdfFilePath = 'small.sdf' #@param {type:\"string\"}\n",
    "ConfoutputFilePath = 'small_conformation.sdf' #@param {type:\"string\"}\n",
    "\n",
    "inputMols = [x for x in Chem.SDMolSupplier(sdfFilePath,removeHs=False)]\n",
    "# Assign atomic chirality based on the structures:\n",
    "len(inputMols) # Check how many strucures"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 10,
   "metadata": {
    "cellView": "form",
    "id": "sKfSM19Jwj-f"
   },
   "outputs": [
    {
     "name": "stderr",
     "output_type": "stream",
     "text": [
      "Generating conformations; 100% Time: 0:00:00 |################################|\n"
     ]
    }
   ],
   "source": [
    "#@title SDF conformation generation for small molecule\n",
    "\n",
    "import multiprocessing\n",
    "\n",
    "# Download this from http://pypi.python.org/pypi/futures\n",
    "from concurrent import futures\n",
    "\n",
    "# conda install progressbar\n",
    "import progressbar\n",
    "\n",
    "#Find number cores available, leave two or system might be unresponsive\n",
    "numcores = multiprocessing.cpu_count()\n",
    "max_workers = numcores #-1\n",
    "\n",
    "#Knowledge based torsion generator http://pubs.acs.org/doi/abs/10.1021/acs.jcim.5b00654\n",
    "# This function is called in the subprocess.\n",
    "# The parameters (molecule and number of conformers) are passed via a Python\n",
    "\n",
    "ps = AllChem.ETKDG()\n",
    "ps.pruneRmsThresh=0.5\n",
    "ps.numThreads=0\n",
    "#Edit for number of confs desired eg n = 5\n",
    "n=5\n",
    "def generateconformations(m, n, name):\n",
    "    m = Chem.AddHs(m)\n",
    "    ids=AllChem.EmbedMultipleConfs(m, n, ps)\n",
    "    for id in ids:\n",
    "        AllChem.UFFOptimizeMolecule(m, confId=id)\n",
    "    # EmbedMultipleConfs returns a Boost-wrapped type which\n",
    "    # cannot be pickled. Convert it to a Python list, which can.\n",
    "    return m, list(ids), name\n",
    "\n",
    "smi_input_file, sdf_output_file = sys.argv[1:3]\n",
    "\n",
    "\n",
    "writer = Chem.SDWriter(ConfoutputFilePath)\n",
    "# suppl = [x for x in Chem.SDMolSupplier(sdfFilePath,removeHs=False)]\n",
    "#suppl = Chem.SmilesMolSupplier(smi_input_file, titleLine=False)\n",
    "\n",
    "# for mol in suppl:\n",
    "#     print(mol.GetPropsAsDict(includePrivate=True).get('_Name'))\n",
    "\n",
    "with futures.ProcessPoolExecutor(max_workers=max_workers) as executor:\n",
    "    # Submit a set of asynchronous jobs\n",
    "    jobs = []\n",
    "    for mol in inputMols:\n",
    "        if mol:\n",
    "            name = mol.GetProp('_Name')\n",
    "            job = executor.submit(generateconformations, mol, n, name)\n",
    "            jobs.append(job)\n",
    "\n",
    "    widgets = [\"Generating conformations; \", progressbar.Percentage(), \" \",\n",
    "               progressbar.ETA(), \" \", progressbar.Bar()]\n",
    "    pbar = progressbar.ProgressBar(widgets=widgets, maxval=len(jobs))\n",
    "    for job in pbar(futures.as_completed(jobs)):\n",
    "        mol, ids, name = job.result()\n",
    "        mol.SetProp('_Name', name)\n",
    "        for id in ids:\n",
    "            writer.write(mol, confId=id)\n",
    "writer.close()"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {
    "id": "0W-wd1QGRjXb"
   },
   "source": [
    "# Define Docking inputs variables"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 11,
   "metadata": {
    "cellView": "form",
    "id": "6N-veZedu3LD"
   },
   "outputs": [],
   "source": [
    "#@title 👋 Input names needed for Dock1\n",
    "ProteinForDocking = \"receptor.pdbqt\" #@param {type:\"string\"}\n",
    "LigandFromProtein = \"native_ligand.pdbqt\" #@param {type:\"string\"}\n",
    "Docked_out_FilePath = \"Docked.pdb\" #@param {type:\"string\"}\n",
    "FlexibleDockedFilePath = \"FlexibleDocked.sdf.gz\" #@param {type:\"string\"}"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {
    "id": "eBRDz0YhaSEu"
   },
   "source": [
    "# Docking "
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 12,
   "metadata": {
    "cellView": "form",
    "id": "HpT1N-2sGFtN"
   },
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "   _______  _______ _________ _        _______ \n",
      "  (  ____ \\(       )\\__   __/( (    /|(  ___  )\n",
      "  | (    \\/| () () |   ) (   |  \\  ( || (   ) |\n",
      "  | (_____ | || || |   | |   |   \\ | || (___) |\n",
      "  (_____  )| |(_)| |   | |   | (\\ \\) ||  ___  |\n",
      "        ) || |   | |   | |   | | \\   || (   ) |\n",
      "  /\\____) || )   ( |___) (___| )  \\  || )   ( |\n",
      "  \\_______)|/     \\|\\_______/|/    )_)|/     \\|\n",
      "\n",
      "\n",
      "smina is based off AutoDock Vina. Please cite appropriately.\n",
      "\n",
      "Weights      Terms\n",
      "-0.035579    gauss(o=0,_w=0.5,_c=8)\n",
      "-0.005156    gauss(o=3,_w=2,_c=8)\n",
      "0.840245     repulsion(o=0,_c=8)\n",
      "-0.035069    hydrophobic(g=0.5,_b=1.5,_c=8)\n",
      "-0.587439    non_dir_h_bond(g=-0.7,_b=0,_c=8)\n",
      "1.923        num_tors_div\n",
      "\n",
      "Using random seed: 0\n",
      "\n",
      "0%   10   20   30   40   50   60   70   80   90   100%\n",
      "|----|----|----|----|----|----|----|----|----|----|\n",
      "***************************************************\n",
      "\n",
      "mode |   affinity | dist from best mode\n",
      "     | (kcal/mol) | rmsd l.b.| rmsd u.b.\n",
      "-----+------------+----------+----------\n",
      "1       -5.6       0.000      0.000    \n",
      "2       -5.6       0.018      1.979    \n",
      "3       -5.6       0.062      1.979    \n",
      "4       -5.6       0.043      2.436    \n",
      "5       -5.6       0.076      1.979    \n",
      "6       -5.6       0.111      1.979    \n",
      "7       -5.6       0.184      2.353    \n",
      "8       -4.1       2.633      4.225    \n",
      "9       -4.1       2.643      4.166    \n",
      "Refine time 3.872\n",
      "Loop time 4.078\n"
     ]
    }
   ],
   "source": [
    "#@title  Normal Docking (docking box is 8Å greater than the ligand specified. The –exhaustiveness is 8 )\n",
    "!./smina.static --seed 0 --autobox_ligand '{LigandFromProtein}' -r '{ProteinForDocking}' -l '{ConfoutputFilePath}'  -o '{Docked_out_FilePath}'"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {
    "id": "Ydb-TlS7WbAl"
   },
   "source": [
    "# 3D Visualization  & Download Docked.pdb and protein. "
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 13,
   "metadata": {},
   "outputs": [],
   "source": [
    "import MDAnalysis as mda\n",
    "import prolif as plf"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 14,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "9 molecules converted\n",
      "9 files output. The first is Docked1.pdb\n"
     ]
    }
   ],
   "source": [
    "!obabel -ipdb Docked.pdb -opdb -O Docked.pdb -m -h"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 15,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "9 molecules converted\n"
     ]
    }
   ],
   "source": [
    "!obabel -ipdb Docked.pdb -osdf -O Docked.sdf  -h"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 16,
   "metadata": {},
   "outputs": [],
   "source": [
    "import py3Dmol\n",
    "\n",
    "def drawit2(m,confId=-1):\n",
    "    mb = Chem.MolToMolBlock(m,confId=confId)\n",
    "    p = py3Dmol.view(width=400, height=400)\n",
    "    p.addModel(mb,'sdf')\n",
    "    p.setStyle({'stick':{}})\n",
    "    p.setBackgroundColor('0xeeeeee')\n",
    "    p.zoomTo()\n",
    "    return p\n",
    "\n",
    "def DrawComplex(protein,ligand):\n",
    "    complex_pl = Chem.MolToPDBBlock(Chem.CombineMols(protein,ligand))\n",
    "    #complex_mol=Chem.CombineMols(receptor,mols[-1])\n",
    "    view = py3Dmol.view(width=600,height=600)\n",
    "    view.addModel(complex_pl,'pdb')\n",
    "    #view.addModel(Chem.MolToMolBlock(mols[0]),'sdf')\n",
    "    chA = {'chain':['H','L','I']}\n",
    "    chB = {'resn':'UNL'}\n",
    "    view.setStyle(chA,{'cartoon': {'color':'spectrum'}})\n",
    "    #view.setStyle(chA,{'lines': {}})\n",
    "    view.addSurface(py3Dmol.VDW,{'opacity':0.8}, chB)\n",
    "    view.setStyle(chB,{'stick':{}})\n",
    "    view.zoomTo()\n",
    "    return view   \n"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 17,
   "metadata": {},
   "outputs": [],
   "source": [
    "#@title Define display style\n",
    "#@title Define receptor name\n",
    "TargetProtein = Protein_PDB_file_name\n",
    "def DrawDocking(protein,ligand):\n",
    "     complex_pl = Chem.MolToPDBBlock(protein)\n",
    "     docked_pdb = Chem.MolToPDBBlock(ligand)\n",
    "     viewer = py3Dmol.view(width=800,height=800)\n",
    "     viewer.addModel(complex_pl,'pdb')\n",
    "     viewer.addModel(docked_pdb)\n",
    "     prot = {'resn': [\"DMS\", \"UNL\", \"SO4\", \"LIG\", \"HOH\", \"Cl\"], 'invert': 1}  #define prot as all except list\n",
    "     viewer.setStyle(prot,{'cartoon': {'colorscheme':'ssPyMol'}}) # Colour by secondary structure\n",
    "     Lig_373 = {'resn' : 'LIG'} #original ligand in pdb file\n",
    "     MyLig = {'resn':'UNL'} #ligand to be added from docking\n",
    "     viewer.addSurface(py3Dmol.VDW,{'opacity':0.7, 'color': 'white'}, prot)\n",
    "     viewer.setStyle({'resi': '132'}, {'stick': {'colorscheme': 'blueCarbon'}})\n",
    "     viewer.setStyle({'resi': '147'}, {'stick': {'colorscheme': 'blueCarbon'}})\n",
    "     viewer.setStyle({'resi': '311'}, {'stick': {'colorscheme': 'blueCarbon'}})\n",
    "     viewer.setStyle(Lig_373,{'stick':{'colorscheme': 'whiteCarbon','radius':.1}}) \n",
    "     viewer.setStyle(MyLig,{'stick':{'colorscheme' : 'greenCarbon'}})\n",
    "     viewer.zoomTo(MyLig)\n",
    "     return viewer "
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 18,
   "metadata": {},
   "outputs": [
    {
     "data": {
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      "text/html": [
       "<div id=\"3dmolviewer_16786887497802355\"  style=\"position: relative; width: 400px; height: 400px\">\n",
       "        <p id=\"3dmolwarning_16786887497802355\" style=\"background-color:#ffcccc;color:black\">You appear to be running in JupyterLab (or JavaScript failed to load for some other reason).  You need to install the 3dmol extension: <br>\n",
       "        <tt>jupyter labextension install jupyterlab_3dmol</tt></p>\n",
       "        </div>\n",
       "<script>\n",
       "\n",
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       "viewer_16786887497802355.zoomTo();\n",
       "\tviewer_16786887497802355.addModel(\"Docked.pdb\\n     RDKit          3D\\n\\n  6  6  0  0  0  0  0  0  0  0999 V2000\\n   23.1350  -25.2090   -4.8450 C   0  0  0  0  0  0  0  0  0  0  0  0\\n   22.8220  -26.0990   -5.8780 C   0  0  0  0  0  0  0  0  0  0  0  0\\n   22.0380  -27.2290   -5.6150 C   0  0  0  0  0  0  0  0  0  0  0  0\\n   21.5690  -27.4680   -4.3190 C   0  0  0  0  0  0  0  0  0  0  0  0\\n   21.8830  -26.5780   -3.2860 C   0  0  0  0  0  0  0  0  0  0  0  0\\n   22.6660  -25.4490   -3.5490 C   0  0  0  0  0  0  0  0  0  0  0  0\\n  1  2  2  0\\n  1  6  1  0\\n  2  3  1  0\\n  3  4  2  0\\n  4  5  1  0\\n  5  6  2  0\\nM  END\\n\",\"sdf\");\n",
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      ]
     },
     "metadata": {},
     "output_type": "display_data"
    },
    {
     "data": {
      "text/plain": [
       "<py3Dmol.view at 0x7f96eb44d970>"
      ]
     },
     "execution_count": 18,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "#@title View docked ligand\n",
    "#pose = \"2\" #@param [\"0\", \"1\", \"2\", \"3\", \"4\", \"5\", \"6\", \"7\", \"8\"]\n",
    "mols = [m for m in Chem.SDMolSupplier('Docked.sdf') if m is not None]\n",
    "drawit2(mols[0])"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 19,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "application/3dmoljs_load.v0": "<div id=\"3dmolviewer_1678688749878809\"  style=\"position: relative; width: 800px; height: 800px\">\n        <p id=\"3dmolwarning_1678688749878809\" style=\"background-color:#ffcccc;color:black\">You appear to be running in JupyterLab (or JavaScript failed to load for some other reason).  You need to install the 3dmol extension: <br>\n        <tt>jupyter labextension install jupyterlab_3dmol</tt></p>\n        </div>\n<script>\n\nvar loadScriptAsync = function(uri){\n  return new Promise((resolve, reject) => {\n    //this is to ignore the existence of requirejs amd\n    var savedexports, savedmodule;\n    if (typeof exports !== 'undefined') savedexports = exports;\n    else exports = {}\n    if (typeof module !== 'undefined') savedmodule = module;\n    else module = {}\n\n    var tag = document.createElement('script');\n    tag.src = uri;\n    tag.async = true;\n    tag.onload = () => {\n        exports = savedexports;\n        module = savedmodule;\n        resolve();\n    };\n  var firstScriptTag = document.getElementsByTagName('script')[0];\n  firstScriptTag.parentNode.insertBefore(tag, firstScriptTag);\n});\n};\n\nif(typeof $3Dmolpromise === 'undefined') {\n$3Dmolpromise = null;\n  $3Dmolpromise = loadScriptAsync('https://cdnjs.cloudflare.com/ajax/libs/3Dmol/2.0.1/3Dmol-min.js');\n}\n\nvar viewer_1678688749878809 = null;\nvar warn = document.getElementById(\"3dmolwarning_1678688749878809\");\nif(warn) {\n    warn.parentNode.removeChild(warn);\n}\n$3Dmolpromise.then(function() {\nviewer_1678688749878809 = $3Dmol.createViewer(document.getElementById(\"3dmolviewer_1678688749878809\"),{backgroundColor:\"white\"});\nviewer_1678688749878809.zoomTo();\n\tviewer_1678688749878809.addModel(\"COMPND    LYSOZYME\\nATOM      1  N   MET A   1       5.561 -15.963  -8.933  1.00 16.19           N  \\nATOM      2  CA AMET A   1       7.044 -15.926  -8.982  0.50 15.51           C  \\nATOM      3  C   MET A   1       7.565 -17.233  -9.569  1.00 15.36           C  \\nATOM      4  O   MET A   1       6.935 -18.292  -9.473  1.00 14.94           O  \\nATOM      5  CB AMET A   1       7.633 -15.614  -7.579  0.50 15.40           C  \\nATOM      6  CG AMET A   1       9.121 -15.214  -7.502  0.50 15.40           C  \\nATOM      7  SD AMET A   1       9.709 -13.669  -8.227  0.50 14.04           S  \\nATOM      8  CE AMET A   1       8.304 -12.536  -8.057  0.50 10.74           C  \\nATOM      9  N   ASN A   2       8.696 -17.109 -10.221  1.00 13.04           N  \\nATOM     10  CA  ASN A   2       9.444 -18.214 -10.830  1.00 11.28           C  \\nATOM     11  C   ASN A   2      10.923 -17.749 -10.851  1.00 11.13           C  \\nATOM     12  O   ASN A   2      11.262 -16.586 -10.453  1.00  8.10           O  \\nATOM     13  CB  ASN A   2       8.903 -18.572 -12.242  1.00 11.33           C  \\nATOM     14  CG  ASN A   2       8.979 -17.384 -13.226  1.00 13.64           C  \\nATOM     15  OD1 ASN A   2      10.036 -16.854 -13.455  1.00  9.75           O  \\nATOM     16  ND2 ASN A   2       7.826 -16.975 -13.804  1.00 12.13           N  \\nATOM     17  N   ILE A   3      11.803 -18.653 -11.255  1.00  9.44           N  \\nATOM     18  CA  ILE A   3      13.215 -18.370 -11.247  1.00  9.32           C  \\nATOM     19  C   ILE A   3      13.649 -17.195 -12.132  1.00  7.70           C  \\nATOM     20  O   ILE A   3      14.597 -16.489 -11.782  1.00  9.80           O  \\nATOM     21  CB  ILE A   3      14.010 -19.669 -11.653  1.00  9.07           C  \\nATOM     22  CG1 ILE A   3      15.522 -19.542 -11.375  1.00  8.89           C  \\nATOM     23  CG2 ILE A   3      13.701 -20.044 -13.127  1.00  9.00           C  \\nATOM     24  CD1 ILE A   3      16.021 -18.938 -10.040  1.00 10.83           C  \\nATOM     25  N   PHE A   4      12.976 -16.982 -13.265  1.00  8.60           N  \\nATOM     26  CA  PHE A   4      13.313 -15.827 -14.061  1.00  8.69           C  \\nATOM     27  C   PHE A   4      12.939 -14.559 -13.370  1.00  9.89           C  \\nATOM     28  O   PHE A   4      13.695 -13.598 -13.393  1.00  9.06           O  \\nATOM     29  CB  PHE A   4      12.680 -15.895 -15.481  1.00  8.95           C  \\nATOM     30  CG  PHE A   4      13.207 -17.104 -16.277  1.00 11.87           C  \\nATOM     31  CD1 PHE A   4      12.684 -18.381 -16.087  1.00 12.45           C  \\nATOM     32  CD2 PHE A   4      14.252 -16.959 -17.165  1.00 10.91           C  \\nATOM     33  CE1 PHE A   4      13.203 -19.507 -16.757  1.00 10.97           C  \\nATOM     34  CE2 PHE A   4      14.737 -18.073 -17.875  1.00 13.68           C  \\nATOM     35  CZ  PHE A   4      14.194 -19.334 -17.662  1.00 13.03           C  \\nATOM     36  N   GLU A   5      11.735 -14.528 -12.804  1.00  9.90           N  \\nATOM     37  CA  GLU A   5      11.306 -13.288 -12.184  1.00 10.93           C  \\nATOM     38  C   GLU A   5      12.211 -12.996 -10.954  1.00  9.58           C  \\nATOM     39  O   GLU A   5      12.515 -11.866 -10.632  1.00  9.92           O  \\nATOM     40  CB  GLU A   5       9.901 -13.444 -11.758  1.00  9.58           C  \\nATOM     41  CG  GLU A   5       8.948 -13.592 -12.964  1.00 15.91           C  \\nATOM     42  CD  GLU A   5       7.492 -13.611 -12.523  1.00 20.54           C  \\nATOM     43  OE1 GLU A   5       7.233 -13.319 -11.345  1.00 25.87           O  \\nATOM     44  OE2 GLU A   5       6.590 -13.885 -13.346  1.00 24.46           O  \\nATOM     45  N   MET A   6      12.558 -14.075 -10.256  1.00 10.80           N  \\nATOM     46  CA  MET A   6      13.414 -13.998  -9.100  1.00 11.41           C  \\nATOM     47  C   MET A   6      14.747 -13.416  -9.466  1.00  9.30           C  \\nATOM     48  O   MET A   6      15.191 -12.450  -8.826  1.00 12.93           O  \\nATOM     49  CB  MET A   6      13.592 -15.388  -8.488  1.00 10.41           C  \\nATOM     50  CG  MET A   6      14.245 -15.365  -7.093  1.00 12.68           C  \\nATOM     51  SD  MET A   6      14.896 -16.987  -6.864  1.00 11.50           S  \\nATOM     52  CE  MET A   6      15.143 -17.019  -5.053  1.00 14.29           C  \\nATOM     53  N   LEU A   7      15.419 -14.013 -10.450  1.00  9.60           N  \\nATOM     54  CA  LEU A   7      16.760 -13.572 -10.840  1.00  9.70           C  \\nATOM     55  C   LEU A   7      16.725 -12.198 -11.446  1.00 10.08           C  \\nATOM     56  O   LEU A   7      17.663 -11.405 -11.248  1.00 10.17           O  \\nATOM     57  CB  LEU A   7      17.456 -14.566 -11.767  1.00  9.47           C  \\nATOM     58  CG  LEU A   7      18.050 -15.641 -10.882  1.00  9.83           C  \\nATOM     59  CD1 LEU A   7      18.407 -16.854 -11.660  1.00 11.30           C  \\nATOM     60  CD2 LEU A   7      19.263 -15.036 -10.178  1.00  7.37           C  \\nATOM     61  N   ARG A   8      15.623 -11.872 -12.125  1.00 10.56           N  \\nATOM     62  CA  ARG A   8      15.486 -10.533 -12.730  1.00 10.46           C  \\nATOM     63  C   ARG A   8      15.430  -9.437 -11.619  1.00 11.05           C  \\nATOM     64  O   ARG A   8      15.999  -8.357 -11.787  1.00 11.99           O  \\nATOM     65  CB  ARG A   8      14.207 -10.427 -13.573  1.00  9.24           C  \\nATOM     66  CG  ARG A   8      13.842  -8.998 -13.962  1.00  8.95           C  \\nATOM     67  CD  ARG A   8      14.682  -8.440 -15.117  1.00 10.45           C  \\nATOM     68  NE  ARG A   8      14.315  -7.024 -15.407  1.00 17.11           N  \\nATOM     69  CZ  ARG A   8      14.510  -5.992 -14.572  1.00 17.32           C  \\nATOM     70  NH1 ARG A   8      15.075  -6.150 -13.368  1.00 19.70           N  \\nATOM     71  NH2 ARG A   8      14.103  -4.781 -14.898  1.00 21.76           N  \\nATOM     72  N   ILE A   9      14.727  -9.723 -10.513  1.00 10.05           N  \\nATOM     73  CA  ILE A   9      14.736  -8.832  -9.354  1.00 11.98           C  \\nATOM     74  C   ILE A   9      16.184  -8.699  -8.794  1.00 10.19           C  \\nATOM     75  O   ILE A   9      16.685  -7.599  -8.621  1.00 11.01           O  \\nATOM     76  CB  ILE A   9      13.745  -9.307  -8.310  1.00 11.81           C  \\nATOM     77  CG1 ILE A   9      12.295  -8.991  -8.792  1.00 11.16           C  \\nATOM     78  CG2 ILE A   9      14.127  -8.715  -6.901  1.00 13.13           C  \\nATOM     79  CD1 ILE A   9      11.180  -9.833  -8.105  1.00 11.02           C  \\nATOM     80  N   ASP A  10      16.875  -9.822  -8.643  1.00  9.37           N  \\nATOM     81  CA  ASP A  10      18.185  -9.878  -7.994  1.00 10.57           C  \\nATOM     82  C   ASP A  10      19.311  -9.308  -8.857  1.00 10.86           C  \\nATOM     83  O   ASP A  10      20.255  -8.693  -8.331  1.00 10.88           O  \\nATOM     84  CB  ASP A  10      18.506 -11.300  -7.545  1.00  8.71           C  \\nATOM     85  CG  ASP A  10      17.731 -11.697  -6.281  1.00 10.36           C  \\nATOM     86  OD1 ASP A  10      17.176 -10.813  -5.602  1.00 12.18           O  \\nATOM     87  OD2 ASP A  10      17.610 -12.911  -5.989  1.00 15.40           O  \\nATOM     88  N   GLU A  11      19.154  -9.412 -10.175  1.00 10.35           N  \\nATOM     89  CA  GLU A  11      20.297  -9.178 -11.071  1.00  9.98           C  \\nATOM     90  C   GLU A  11      20.085  -7.849 -11.752  1.00 11.17           C  \\nATOM     91  O   GLU A  11      21.027  -7.244 -12.149  1.00 10.89           O  \\nATOM     92  CB  GLU A  11      20.423 -10.284 -12.090  1.00 11.45           C  \\nATOM     93  CG  GLU A  11      20.983 -11.570 -11.540  1.00  8.72           C  \\nATOM     94  CD  GLU A  11      22.331 -11.403 -10.856  1.00 14.34           C  \\nATOM     95  OE1 GLU A  11      22.997 -10.296 -10.924  1.00 19.80           O  \\nATOM     96  OE2 GLU A  11      22.765 -12.362 -10.191  1.00 13.76           O  \\nATOM     97  N   GLY A  12      18.835  -7.395 -11.858  1.00  9.73           N  \\nATOM     98  CA  GLY A  12      18.503  -6.196 -12.686  1.00 10.14           C  \\nATOM     99  C   GLY A  12      18.558  -6.457 -14.191  1.00  9.64           C  \\nATOM    100  O   GLY A  12      18.692  -7.612 -14.632  1.00  8.39           O  \\nATOM    101  N   LEU A  13      18.315  -5.384 -14.951  1.00 10.95           N  \\nATOM    102  CA  LEU A  13      18.476  -5.410 -16.395  1.00 10.93           C  \\nATOM    103  C   LEU A  13      19.230  -4.158 -16.821  1.00 12.47           C  \\nATOM    104  O   LEU A  13      18.764  -3.037 -16.638  1.00 10.09           O  \\nATOM    105  CB  LEU A  13      17.121  -5.551 -17.094  1.00 10.84           C  \\nATOM    106  CG  LEU A  13      17.051  -5.400 -18.622  1.00 13.98           C  \\nATOM    107  CD1 LEU A  13      17.887  -6.504 -19.296  1.00 14.85           C  \\nATOM    108  CD2 LEU A  13      15.573  -5.621 -18.963  1.00 20.16           C  \\nATOM    109  N   ARG A  14      20.427  -4.347 -17.366  1.00 13.51           N  \\nATOM    110  CA  ARG A  14      21.161  -3.231 -17.947  1.00 12.55           C  \\nATOM    111  C   ARG A  14      21.624  -3.631 -19.343  1.00 13.91           C  \\nATOM    112  O   ARG A  14      22.092  -4.770 -19.558  1.00 13.51           O  \\nATOM    113  CB  ARG A  14      22.348  -2.865 -17.057  1.00 13.69           C  \\nATOM    114  CG  ARG A  14      21.881  -2.627 -15.541  1.00 10.77           C  \\nATOM    115  CD  ARG A  14      22.950  -2.031 -14.624  1.00 14.02           C  \\nATOM    116  NE  ARG A  14      23.267  -0.711 -15.097  1.00 18.61           N  \\nATOM    117  CZ  ARG A  14      24.231   0.041 -14.576  1.00 23.42           C  \\nATOM    118  NH1 ARG A  14      24.992  -0.441 -13.583  1.00 21.81           N  \\nATOM    119  NH2 ARG A  14      24.456   1.241 -15.079  1.00 24.97           N  \\nATOM    120  N   LEU A  15      21.488  -2.704 -20.276  1.00 14.21           N  \\nATOM    121  CA  LEU A  15      21.708  -3.028 -21.647  1.00 13.95           C  \\nATOM    122  C   LEU A  15      23.062  -2.639 -22.085  1.00 15.21           C  \\nATOM    123  O   LEU A  15      23.426  -3.007 -23.183  1.00 16.83           O  \\nATOM    124  CB  LEU A  15      20.647  -2.401 -22.523  1.00 14.29           C  \\nATOM    125  CG  LEU A  15      19.175  -2.813 -22.276  1.00 14.19           C  \\nATOM    126  CD1 LEU A  15      18.319  -2.230 -23.411  1.00 16.89           C  \\nATOM    127  CD2 LEU A  15      18.984  -4.289 -22.191  1.00 16.65           C  \\nATOM    128  N   LYS A  16      23.837  -1.955 -21.239  1.00 13.81           N  \\nATOM    129  CA  LYS A  16      25.207  -1.511 -21.600  1.00 14.34           C  \\nATOM    130  C   LYS A  16      26.123  -2.220 -20.641  1.00 13.58           C  \\nATOM    131  O   LYS A  16      25.731  -2.428 -19.477  1.00 15.63           O  \\nATOM    132  CB  LYS A  16      25.445  -0.003 -21.420  1.00 13.23           C  \\nATOM    133  CG  LYS A  16      24.695   0.873 -22.429  1.00 15.23           C  \\nATOM    134  CD  LYS A  16      24.562   2.348 -21.919  1.00 18.50           C  \\nATOM    135  CE  LYS A  16      24.042   3.253 -23.023  0.50 18.65           C  \\nATOM    136  NZ  LYS A  16      23.452   4.494 -22.483  0.50 21.53           N  \\nATOM    137  N   ILE A  17      27.336  -2.553 -21.085  1.00 14.54           N  \\nATOM    138  CA  ILE A  17      28.286  -3.207 -20.207  1.00 12.07           C  \\nATOM    139  C   ILE A  17      28.445  -2.430 -18.902  1.00 12.48           C  \\nATOM    140  O   ILE A  17      28.560  -1.225 -18.904  1.00 11.54           O  \\nATOM    141  CB  ILE A  17      29.634  -3.435 -20.873  1.00 12.95           C  \\nATOM    142  CG1 ILE A  17      29.493  -4.310 -22.144  1.00  8.75           C  \\nATOM    143  CG2 ILE A  17      30.696  -3.989 -19.862  1.00 12.45           C  \\nATOM    144  CD1 ILE A  17      30.848  -4.603 -22.812  1.00 12.23           C  \\nATOM    145  N   TYR A  18      28.373  -3.145 -17.790  1.00 14.39           N  \\nATOM    146  CA  TYR A  18      28.495  -2.515 -16.435  1.00 14.47           C  \\nATOM    147  C   TYR A  18      29.363  -3.471 -15.607  1.00 11.71           C  \\nATOM    148  O   TYR A  18      29.567  -4.613 -16.003  1.00 11.89           O  \\nATOM    149  CB  TYR A  18      27.118  -2.287 -15.749  1.00 13.83           C  \\nATOM    150  CG  TYR A  18      26.357  -3.552 -15.398  1.00 16.86           C  \\nATOM    151  CD1 TYR A  18      26.399  -4.107 -14.085  1.00 18.55           C  \\nATOM    152  CD2 TYR A  18      25.550  -4.229 -16.381  1.00 17.94           C  \\nATOM    153  CE1 TYR A  18      25.696  -5.338 -13.766  1.00 17.18           C  \\nATOM    154  CE2 TYR A  18      24.833  -5.419 -16.053  1.00 14.72           C  \\nATOM    155  CZ  TYR A  18      24.891  -5.954 -14.728  1.00 19.33           C  \\nATOM    156  OH  TYR A  18      24.153  -7.143 -14.446  1.00 17.43           O  \\nATOM    157  N   LYS A  19      29.830  -2.990 -14.466  1.00 10.51           N  \\nATOM    158  CA  LYS A  19      30.548  -3.762 -13.546  1.00 11.63           C  \\nATOM    159  C   LYS A  19      29.558  -4.240 -12.469  1.00 10.87           C  \\nATOM    160  O   LYS A  19      28.710  -3.454 -11.952  1.00 10.79           O  \\nATOM    161  CB  LYS A  19      31.682  -2.988 -12.948  1.00 10.53           C  \\nATOM    162  CG  LYS A  19      32.726  -2.643 -13.946  1.00 12.17           C  \\nATOM    163  CD  LYS A  19      33.877  -2.083 -13.250  1.00 13.68           C  \\nATOM    164  CE  LYS A  19      34.967  -1.539 -14.227  1.00 14.68           C  \\nATOM    165  NZ  LYS A  19      35.970  -0.819 -13.352  1.00 14.18           N  \\nATOM    166  N   ASP A  20      29.600  -5.541 -12.238  1.00 10.28           N  \\nATOM    167  CA  ASP A  20      28.755  -6.178 -11.230  1.00 10.35           C  \\nATOM    168  C   ASP A  20      29.298  -5.856  -9.825  1.00 11.13           C  \\nATOM    169  O   ASP A  20      30.226  -5.065  -9.684  1.00 13.25           O  \\nATOM    170  CB  ASP A  20      28.668  -7.714 -11.433  1.00  9.98           C  \\nATOM    171  CG  ASP A  20      29.988  -8.465 -11.129  1.00 12.88           C  \\nATOM    172  OD1 ASP A  20      30.984  -7.917 -10.654  1.00 12.47           O  \\nATOM    173  OD2 ASP A  20      30.049  -9.702 -11.403  1.00 17.43           O  \\nATOM    174  N   THR A  21      28.720  -6.477  -8.805  1.00 11.25           N  \\nATOM    175  CA ATHR A  21      29.009  -6.152  -7.390  0.50 11.50           C  \\nATOM    176  C   THR A  21      30.477  -6.421  -7.079  1.00 13.05           C  \\nATOM    177  O   THR A  21      31.021  -5.897  -6.128  1.00 13.00           O  \\nATOM    178  CB ATHR A  21      28.137  -6.999  -6.443  0.50 11.96           C  \\nATOM    179  OG1ATHR A  21      28.532  -8.367  -6.545  0.50  9.71           O  \\nATOM    180  CG2ATHR A  21      26.613  -6.864  -6.788  0.50  9.51           C  \\nATOM    181  N   GLU A  22      31.092  -7.317  -7.862  1.00 13.35           N  \\nATOM    182  CA  GLU A  22      32.490  -7.662  -7.724  1.00 12.75           C  \\nATOM    183  C   GLU A  22      33.430  -6.817  -8.601  1.00 12.79           C  \\nATOM    184  O   GLU A  22      34.654  -7.008  -8.550  1.00 14.56           O  \\nATOM    185  CB  GLU A  22      32.706  -9.174  -7.929  1.00 14.64           C  \\nATOM    186  CG  GLU A  22      32.057 -10.100  -6.954  1.00 15.63           C  \\nATOM    187  CD  GLU A  22      32.687  -9.982  -5.568  1.00 24.42           C  \\nATOM    188  OE1 GLU A  22      33.939  -9.752  -5.413  1.00 27.57           O  \\nATOM    189  OE2 GLU A  22      31.927 -10.082  -4.603  1.00 25.73           O  \\nATOM    190  N   GLY A  23      32.899  -5.860  -9.369  1.00 12.54           N  \\nATOM    191  CA  GLY A  23      33.714  -5.054 -10.291  1.00 12.77           C  \\nATOM    192  C   GLY A  23      33.925  -5.726 -11.631  1.00 13.27           C  \\nATOM    193  O   GLY A  23      34.746  -5.261 -12.389  1.00 12.49           O  \\nATOM    194  N   TYR A  24      33.188  -6.818 -11.934  1.00 12.52           N  \\nATOM    195  CA ATYR A  24      33.399  -7.500 -13.218  0.50 12.99           C  \\nATOM    196  C   TYR A  24      32.400  -7.159 -14.255  1.00 12.20           C  \\nATOM    197  O   TYR A  24      31.233  -7.035 -13.968  1.00 12.55           O  \\nATOM    198  CB ATYR A  24      33.556  -9.021 -13.089  0.50 13.61           C  \\nATOM    199  CG ATYR A  24      34.623  -9.343 -12.121  0.50 13.38           C  \\nATOM    200  CD1ATYR A  24      35.916  -8.819 -12.279  0.50 11.36           C  \\nATOM    201  CD2ATYR A  24      34.349 -10.120 -11.004  0.50 14.00           C  \\nATOM    202  CE1ATYR A  24      36.918  -9.086 -11.342  0.50 12.77           C  \\nATOM    203  CE2ATYR A  24      35.317 -10.382 -10.083  0.50 15.94           C  \\nATOM    204  CZ ATYR A  24      36.598  -9.865 -10.238  0.50 14.47           C  \\nATOM    205  OH ATYR A  24      37.533 -10.179  -9.280  0.50 17.75           O  \\nATOM    206  N   TYR A  25      32.932  -7.026 -15.486  1.00 12.09           N  \\nATOM    207  CA  TYR A  25      32.179  -6.584 -16.638  1.00 12.61           C  \\nATOM    208  C   TYR A  25      31.081  -7.581 -16.948  1.00 11.80           C  \\nATOM    209  O   TYR A  25      31.336  -8.785 -17.028  1.00 11.78           O  \\nATOM    210  CB  TYR A  25      33.048  -6.452 -17.840  1.00 11.99           C  \\nATOM    211  CG  TYR A  25      33.968  -5.305 -17.737  1.00 13.52           C  \\nATOM    212  CD1 TYR A  25      35.325  -5.518 -17.812  1.00 15.00           C  \\nATOM    213  CD2 TYR A  25      33.488  -4.013 -17.535  1.00 12.92           C  \\nATOM    214  CE1 TYR A  25      36.223  -4.433 -17.731  1.00 15.76           C  \\nATOM    215  CE2 TYR A  25      34.355  -2.917 -17.467  1.00 14.50           C  \\nATOM    216  CZ  TYR A  25      35.739  -3.147 -17.578  1.00 16.48           C  \\nATOM    217  OH  TYR A  25      36.629  -2.116 -17.499  1.00 18.00           O  \\nATOM    218  N   THR A  26      29.880  -7.035 -17.078  1.00 11.69           N  \\nATOM    219  CA  THR A  26      28.634  -7.821 -17.042  1.00 12.00           C  \\nATOM    220  C   THR A  26      27.677  -7.090 -17.975  1.00 11.69           C  \\nATOM    221  O   THR A  26      27.861  -5.934 -18.220  1.00 12.63           O  \\nATOM    222  CB  THR A  26      28.104  -7.933 -15.551  1.00 12.28           C  \\nATOM    223  OG1 THR A  26      29.112  -8.590 -14.733  1.00 13.67           O  \\nATOM    224  CG2 THR A  26      26.740  -8.671 -15.460  1.00 13.96           C  \\nATOM    225  N   ILE A  27      26.673  -7.754 -18.529  1.00 10.49           N  \\nATOM    226  CA  ILE A  27      25.623  -7.061 -19.275  1.00 11.85           C  \\nATOM    227  C   ILE A  27      24.289  -7.760 -19.021  1.00 10.90           C  \\nATOM    228  O   ILE A  27      24.262  -8.839 -18.484  1.00 13.57           O  \\nATOM    229  CB  ILE A  27      25.970  -6.982 -20.827  1.00  8.77           C  \\nATOM    230  CG1 ILE A  27      25.126  -5.864 -21.494  1.00  9.65           C  \\nATOM    231  CG2 ILE A  27      25.863  -8.366 -21.435  1.00 12.03           C  \\nATOM    232  CD1 ILE A  27      25.660  -5.372 -22.839  1.00 11.30           C  \\nATOM    233  N   GLY A  28      23.198  -7.134 -19.399  1.00 11.08           N  \\nATOM    234  CA  GLY A  28      21.893  -7.789 -19.451  1.00 11.75           C  \\nATOM    235  C   GLY A  28      21.405  -8.092 -18.068  1.00 11.50           C  \\nATOM    236  O   GLY A  28      21.389  -7.193 -17.197  1.00 11.34           O  \\nATOM    237  N   ILE A  29      21.008  -9.359 -17.869  1.00 11.68           N  \\nATOM    238  CA  ILE A  29      20.474  -9.822 -16.566  1.00 10.38           C  \\nATOM    239  C   ILE A  29      21.581 -10.615 -15.842  1.00 10.59           C  \\nATOM    240  O   ILE A  29      21.520 -11.830 -15.751  1.00 11.75           O  \\nATOM    241  CB  ILE A  29      19.130 -10.547 -16.693  1.00 11.65           C  \\nATOM    242  CG1 ILE A  29      18.055  -9.646 -17.356  1.00  8.43           C  \\nATOM    243  CG2 ILE A  29      18.591 -10.990 -15.328  1.00 10.08           C  \\nATOM    244  CD1 ILE A  29      16.933 -10.395 -18.113  1.00 12.83           C  \\nATOM    245  N   GLY A  30      22.601  -9.907 -15.332  1.00 10.90           N  \\nATOM    246  CA  GLY A  30      23.716 -10.556 -14.663  1.00 10.32           C  \\nATOM    247  C   GLY A  30      24.459 -11.550 -15.525  1.00 11.48           C  \\nATOM    248  O   GLY A  30      24.903 -12.643 -15.066  1.00 12.69           O  \\nATOM    249  N   HIS A  31      24.650 -11.172 -16.779  1.00  8.99           N  \\nATOM    250  CA  HIS A  31      25.436 -12.044 -17.632  1.00 10.80           C  \\nATOM    251  C   HIS A  31      26.876 -11.567 -17.520  1.00  8.81           C  \\nATOM    252  O   HIS A  31      27.255 -10.542 -18.111  1.00 10.50           O  \\nATOM    253  CB  HIS A  31      24.990 -11.990 -19.097  1.00  9.28           C  \\nATOM    254  CG  HIS A  31      25.845 -12.837 -19.965  1.00  9.54           C  \\nATOM    255  ND1 HIS A  31      25.671 -14.193 -20.067  1.00 14.49           N  \\nATOM    256  CD2 HIS A  31      26.987 -12.555 -20.634  1.00 13.34           C  \\nATOM    257  CE1 HIS A  31      26.628 -14.703 -20.827  1.00 14.65           C  \\nATOM    258  NE2 HIS A  31      27.438 -13.727 -21.177  1.00 13.40           N  \\nATOM    259  N   LEU A  32      27.674 -12.359 -16.827  1.00 10.44           N  \\nATOM    260  CA  LEU A  32      29.069 -12.061 -16.591  1.00 12.64           C  \\nATOM    261  C   LEU A  32      29.796 -12.233 -17.912  1.00 12.40           C  \\nATOM    262  O   LEU A  32      29.675 -13.272 -18.584  1.00 12.89           O  \\nATOM    263  CB  LEU A  32      29.615 -13.058 -15.554  1.00 13.09           C  \\nATOM    264  CG  LEU A  32      31.118 -12.943 -15.243  1.00 14.71           C  \\nATOM    265  CD1 LEU A  32      31.455 -11.547 -14.710  1.00 11.58           C  \\nATOM    266  CD2 LEU A  32      31.592 -14.089 -14.245  1.00 14.66           C  \\nATOM    267  N   LEU A  33      30.519 -11.216 -18.322  1.00 12.36           N  \\nATOM    268  CA  LEU A  33      31.266 -11.293 -19.602  1.00 13.55           C  \\nATOM    269  C   LEU A  33      32.696 -11.751 -19.366  1.00 15.00           C  \\nATOM    270  O   LEU A  33      33.203 -12.621 -20.102  1.00 15.58           O  \\nATOM    271  CB  LEU A  33      31.321  -9.920 -20.203  1.00 13.92           C  \\nATOM    272  CG  LEU A  33      29.961  -9.530 -20.748  1.00  9.98           C  \\nATOM    273  CD1 LEU A  33      29.967  -8.038 -21.078  1.00 11.52           C  \\nATOM    274  CD2 LEU A  33      29.599 -10.356 -22.046  1.00  6.96           C  \\nATOM    275  N   THR A  34      33.339 -11.200 -18.333  1.00 15.13           N  \\nATOM    276  CA  THR A  34      34.686 -11.561 -18.021  1.00 16.46           C  \\nATOM    277  C   THR A  34      35.082 -11.015 -16.666  1.00 17.47           C  \\nATOM    278  O   THR A  34      34.547  -9.979 -16.232  1.00 17.59           O  \\nATOM    279  CB  THR A  34      35.721 -10.977 -19.080  1.00 18.65           C  \\nATOM    280  OG1 THR A  34      37.052 -11.341 -18.700  1.00 19.78           O  \\nATOM    281  CG2 THR A  34      35.689  -9.465 -19.114  1.00 12.88           C  \\nATOM    282  N   LYS A  35      36.068 -11.674 -16.039  1.00 18.87           N  \\nATOM    283  CA  LYS A  35      36.806 -11.089 -14.902  1.00 21.97           C  \\nATOM    284  C   LYS A  35      37.974 -10.166 -15.236  1.00 23.16           C  \\nATOM    285  O   LYS A  35      38.512  -9.480 -14.335  1.00 23.53           O  \\nATOM    286  CB  LYS A  35      37.258 -12.169 -13.930  1.00 22.07           C  \\nATOM    287  CG  LYS A  35      36.033 -12.908 -13.404  1.00 22.54           C  \\nATOM    288  CD  LYS A  35      36.355 -13.859 -12.265  1.00 20.80           C  \\nATOM    289  CE  LYS A  35      35.035 -14.572 -11.907  1.00 28.15           C  \\nATOM    290  NZ  LYS A  35      35.218 -15.611 -10.823  1.00 29.37           N  \\nATOM    291  N   SER A  36      38.357 -10.125 -16.505  1.00 23.27           N  \\nATOM    292  CA  SER A  36      39.391  -9.206 -16.956  1.00 22.49           C  \\nATOM    293  C   SER A  36      39.054  -7.756 -16.718  1.00 22.79           C  \\nATOM    294  O   SER A  36      37.917  -7.313 -16.954  1.00 20.74           O  \\nATOM    295  CB  SER A  36      39.643  -9.383 -18.454  1.00 23.05           C  \\nATOM    296  OG  SER A  36      40.470  -8.323 -18.929  1.00 21.13           O  \\nATOM    297  N   PRO A  37      40.044  -6.993 -16.251  1.00 23.64           N  \\nATOM    298  CA  PRO A  37      39.856  -5.563 -16.100  1.00 23.78           C  \\nATOM    299  C   PRO A  37      39.896  -4.829 -17.439  1.00 24.01           C  \\nATOM    300  O   PRO A  37      39.743  -3.621 -17.474  1.00 23.95           O  \\nATOM    301  CB  PRO A  37      41.054  -5.135 -15.238  1.00 24.98           C  \\nATOM    302  CG  PRO A  37      42.145  -6.158 -15.541  1.00 24.78           C  \\nATOM    303  CD  PRO A  37      41.366  -7.465 -15.809  1.00 24.30           C  \\nATOM    304  N   ASP A  38      40.068  -5.565 -18.522  1.00 23.55           N  \\nATOM    305  CA  ASP A  38      40.176  -4.981 -19.861  1.00 23.61           C  \\nATOM    306  C   ASP A  38      38.763  -4.867 -20.435  1.00 22.10           C  \\nATOM    307  O   ASP A  38      38.113  -5.896 -20.726  1.00 23.06           O  \\nATOM    308  CB  ASP A  38      40.984  -5.939 -20.711  1.00 23.90           C  \\nATOM    309  CG  ASP A  38      41.359  -5.383 -22.079  1.00 29.00           C  \\nATOM    310  OD1 ASP A  38      40.917  -4.290 -22.515  1.00 31.63           O  \\nATOM    311  OD2 ASP A  38      42.140  -6.103 -22.744  0.50 31.87           O  \\nATOM    312  N   LEU A  39      38.291  -3.640 -20.593  1.00 20.06           N  \\nATOM    313  CA  LEU A  39      37.000  -3.399 -21.170  1.00 17.93           C  \\nATOM    314  C   LEU A  39      36.922  -4.016 -22.574  1.00 17.00           C  \\nATOM    315  O   LEU A  39      35.903  -4.585 -22.967  1.00 14.52           O  \\nATOM    316  CB  LEU A  39      36.636  -1.933 -21.144  1.00 19.75           C  \\nATOM    317  CG  LEU A  39      35.242  -1.577 -21.762  1.00 19.08           C  \\nATOM    318  CD1 LEU A  39      33.981  -2.226 -21.083  1.00 15.17           C  \\nATOM    319  CD2 LEU A  39      35.178  -0.079 -21.883  1.00 17.63           C  \\nATOM    320  N   ASN A  40      38.013  -3.974 -23.313  1.00 15.29           N  \\nATOM    321  CA  ASN A  40      37.986  -4.574 -24.624  1.00 16.57           C  \\nATOM    322  C   ASN A  40      37.790  -6.091 -24.605  1.00 15.17           C  \\nATOM    323  O   ASN A  40      37.255  -6.653 -25.553  1.00 15.96           O  \\nATOM    324  CB  ASN A  40      39.272  -4.248 -25.372  1.00 19.04           C  \\nATOM    325  CG  ASN A  40      39.309  -2.805 -25.835  1.00 24.09           C  \\nATOM    326  OD1 ASN A  40      38.287  -2.209 -26.268  1.00 27.52           O  \\nATOM    327  ND2 ASN A  40      40.500  -2.211 -25.714  1.00 29.99           N  \\nATOM    328  N   ALA A  41      38.321  -6.754 -23.585  1.00 15.24           N  \\nATOM    329  CA  ALA A  41      38.222  -8.195 -23.467  1.00 15.24           C  \\nATOM    330  C   ALA A  41      36.757  -8.490 -23.200  1.00 15.28           C  \\nATOM    331  O   ALA A  41      36.235  -9.509 -23.713  1.00 16.99           O  \\nATOM    332  CB  ALA A  41      39.085  -8.733 -22.392  1.00 13.34           C  \\nATOM    333  N   ALA A  42      36.085  -7.617 -22.421  1.00 15.41           N  \\nATOM    334  CA  ALA A  42      34.615  -7.764 -22.207  1.00 13.34           C  \\nATOM    335  C   ALA A  42      33.800  -7.533 -23.458  1.00 14.85           C  \\nATOM    336  O   ALA A  42      32.802  -8.239 -23.737  1.00 15.53           O  \\nATOM    337  CB  ALA A  42      34.111  -6.888 -21.007  1.00 14.75           C  \\nATOM    338  N   LYS A  43      34.207  -6.541 -24.235  1.00 14.45           N  \\nATOM    339  CA  LYS A  43      33.554  -6.246 -25.485  1.00 13.01           C  \\nATOM    340  C   LYS A  43      33.731  -7.366 -26.446  1.00 11.58           C  \\nATOM    341  O   LYS A  43      32.795  -7.672 -27.135  1.00 13.80           O  \\nATOM    342  CB  LYS A  43      34.002  -4.925 -26.119  1.00 13.83           C  \\nATOM    343  CG  LYS A  43      33.566  -3.712 -25.306  1.00 18.49           C  \\nATOM    344  CD  LYS A  43      34.132  -2.436 -25.871  1.00 21.84           C  \\nATOM    345  CE  LYS A  43      33.394  -1.273 -25.232  1.00 26.35           C  \\nATOM    346  NZ  LYS A  43      33.578  -0.015 -25.966  1.00 30.22           N  \\nATOM    347  N   SER A  44      34.896  -8.006 -26.487  1.00 11.60           N  \\nATOM    348  CA  SER A  44      35.087  -9.174 -27.387  1.00 12.83           C  \\nATOM    349  C   SER A  44      34.145 -10.342 -26.941  1.00 13.44           C  \\nATOM    350  O   SER A  44      33.436 -10.996 -27.768  1.00 13.24           O  \\nATOM    351  CB  SER A  44      36.594  -9.526 -27.412  1.00 14.76           C  \\nATOM    352  OG  SER A  44      36.850 -10.723 -28.102  1.00 18.81           O  \\nATOM    353  N   GLU A  45      34.089 -10.602 -25.629  1.00 13.03           N  \\nATOM    354  CA  GLU A  45      33.200 -11.666 -25.058  1.00 12.59           C  \\nATOM    355  C   GLU A  45      31.750 -11.385 -25.361  1.00 12.07           C  \\nATOM    356  O   GLU A  45      31.017 -12.296 -25.676  1.00 13.76           O  \\nATOM    357  CB  GLU A  45      33.334 -11.748 -23.555  1.00 10.62           C  \\nATOM    358  CG  GLU A  45      34.647 -12.347 -23.128  1.00 12.96           C  \\nATOM    359  CD  GLU A  45      34.855 -13.718 -23.805  1.00 15.13           C  \\nATOM    360  OE1 GLU A  45      34.075 -14.665 -23.575  1.00 13.31           O  \\nATOM    361  OE2 GLU A  45      35.826 -13.847 -24.550  1.00 17.67           O  \\nATOM    362  N   LEU A  46      31.316 -10.121 -25.250  1.00 11.28           N  \\nATOM    363  CA  LEU A  46      29.963  -9.716 -25.595  1.00 10.57           C  \\nATOM    364  C   LEU A  46      29.645 -10.066 -27.044  1.00 11.44           C  \\nATOM    365  O   LEU A  46      28.620 -10.666 -27.334  1.00 12.45           O  \\nATOM    366  CB  LEU A  46      29.680  -8.195 -25.388  1.00  7.82           C  \\nATOM    367  CG  LEU A  46      28.261  -7.700 -25.710  1.00  8.57           C  \\nATOM    368  CD1 LEU A  46      27.223  -8.416 -24.846  1.00 11.19           C  \\nATOM    369  CD2 LEU A  46      28.126  -6.246 -25.455  1.00 10.01           C  \\nATOM    370  N   ASP A  47      30.509  -9.645 -27.950  1.00 12.06           N  \\nATOM    371  CA  ASP A  47      30.287  -9.869 -29.345  1.00 11.19           C  \\nATOM    372  C   ASP A  47      30.254 -11.369 -29.653  1.00 11.07           C  \\nATOM    373  O   ASP A  47      29.487 -11.789 -30.501  1.00 10.42           O  \\nATOM    374  CB  ASP A  47      31.423  -9.217 -30.093  1.00 10.99           C  \\nATOM    375  CG  ASP A  47      31.363  -7.695 -30.024  1.00 12.43           C  \\nATOM    376  OD1 ASP A  47      30.355  -7.081 -29.552  1.00 10.46           O  \\nATOM    377  OD2 ASP A  47      32.309  -7.121 -30.573  1.00 18.98           O  \\nATOM    378  N   LYS A  48      31.150 -12.145 -29.021  1.00 10.81           N  \\nATOM    379  CA  LYS A  48      31.160 -13.618 -29.170  1.00 10.31           C  \\nATOM    380  C   LYS A  48      29.782 -14.205 -28.710  1.00  9.51           C  \\nATOM    381  O   LYS A  48      29.201 -15.075 -29.374  1.00 10.98           O  \\nATOM    382  CB  LYS A  48      32.335 -14.214 -28.396  1.00  8.87           C  \\nATOM    383  CG  LYS A  48      32.462 -15.715 -28.570  1.00  9.35           C  \\nATOM    384  CD  LYS A  48      33.818 -16.315 -28.181  1.00  8.34           C  \\nATOM    385  CE  LYS A  48      34.396 -15.833 -26.876  1.00  9.68           C  \\nATOM    386  NZ  LYS A  48      33.695 -16.293 -25.719  1.00 11.58           N  \\nATOM    387  N   ALA A  49      29.245 -13.662 -27.615  1.00 10.87           N  \\nATOM    388  CA  ALA A  49      28.052 -14.170 -26.929  1.00 12.51           C  \\nATOM    389  C   ALA A  49      26.820 -13.908 -27.790  1.00 12.83           C  \\nATOM    390  O   ALA A  49      25.892 -14.760 -27.952  1.00 11.18           O  \\nATOM    391  CB  ALA A  49      27.927 -13.423 -25.553  1.00 13.07           C  \\nATOM    392  N   ILE A  50      26.842 -12.746 -28.406  1.00 12.15           N  \\nATOM    393  CA  ILE A  50      25.673 -12.274 -29.151  1.00 12.61           C  \\nATOM    394  C   ILE A  50      25.735 -12.652 -30.633  1.00 11.87           C  \\nATOM    395  O   ILE A  50      24.695 -12.767 -31.255  1.00 12.43           O  \\nATOM    396  CB  ILE A  50      25.472 -10.730 -29.010  1.00 10.16           C  \\nATOM    397  CG1 ILE A  50      25.282 -10.393 -27.508  1.00 14.77           C  \\nATOM    398  CG2 ILE A  50      24.281 -10.260 -29.866  1.00 11.98           C  \\nATOM    399  CD1 ILE A  50      24.049 -10.949 -26.859  1.00 14.13           C  \\nATOM    400  N   GLY A  51      26.937 -12.913 -31.144  1.00 13.85           N  \\nATOM    401  CA  GLY A  51      27.113 -13.231 -32.576  1.00 14.53           C  \\nATOM    402  C   GLY A  51      27.105 -11.986 -33.492  1.00 17.21           C  \\nATOM    403  O   GLY A  51      26.856 -12.081 -34.685  1.00 17.73           O  \\nATOM    404  N   ARG A  52      27.351 -10.806 -32.950  1.00 16.02           N  \\nATOM    405  CA  ARG A  52      27.364  -9.594 -33.759  1.00 16.50           C  \\nATOM    406  C   ARG A  52      28.271  -8.634 -33.015  1.00 14.92           C  \\nATOM    407  O   ARG A  52      28.613  -8.905 -31.871  1.00 15.80           O  \\nATOM    408  CB  ARG A  52      25.933  -9.028 -34.021  1.00 15.77           C  \\nATOM    409  CG  ARG A  52      25.246  -8.424 -32.779  1.00 17.56           C  \\nATOM    410  CD  ARG A  52      23.915  -7.712 -33.120  1.00 20.09           C  \\nATOM    411  NE  ARG A  52      23.293  -7.136 -31.928  1.00 20.79           N  \\nATOM    412  CZ  ARG A  52      23.658  -6.002 -31.341  1.00 21.18           C  \\nATOM    413  NH1 ARG A  52      24.597  -5.250 -31.904  1.00 25.60           N  \\nATOM    414  NH2 ARG A  52      23.006  -5.576 -30.243  1.00 23.53           N  \\nATOM    415  N   ASN A  53      28.662  -7.545 -33.683  1.00 14.53           N  \\nATOM    416  CA  ASN A  53      29.520  -6.494 -33.171  1.00 15.36           C  \\nATOM    417  C   ASN A  53      28.632  -5.561 -32.350  1.00 15.47           C  \\nATOM    418  O   ASN A  53      27.881  -4.804 -32.906  1.00 13.54           O  \\nATOM    419  CB  ASN A  53      30.083  -5.698 -34.363  1.00 15.64           C  \\nATOM    420  CG  ASN A  53      31.367  -6.294 -34.930  0.50 16.35           C  \\nATOM    421  OD1 ASN A  53      32.043  -7.087 -34.292  0.50 17.84           O  \\nATOM    422  ND2 ASN A  53      31.703  -5.901 -36.141  0.50 14.99           N  \\nATOM    423  N   CYS A  54      28.636  -5.674 -31.027  1.00 15.19           N  \\nATOM    424  CA  CYS A  54      27.590  -4.959 -30.253  1.00 15.66           C  \\nATOM    425  C   CYS A  54      28.035  -3.621 -29.806  1.00 15.84           C  \\nATOM    426  O   CYS A  54      27.199  -2.775 -29.399  1.00 18.75           O  \\nATOM    427  CB  CYS A  54      27.165  -5.741 -29.019  1.00 14.40           C  \\nATOM    428  SG  CYS A  54      26.498  -7.306 -29.460  1.00 17.76           S  \\nATOM    429  N   ASN A  55      29.345  -3.411 -29.844  1.00 16.88           N  \\nATOM    430  CA  ASN A  55      29.936  -2.166 -29.332  1.00 17.33           C  \\nATOM    431  C   ASN A  55      29.426  -1.846 -27.898  1.00 17.29           C  \\nATOM    432  O   ASN A  55      29.010  -0.715 -27.600  1.00 18.40           O  \\nATOM    433  CB  ASN A  55      29.776  -1.019 -30.373  0.50 17.07           C  \\nATOM    434  CG  ASN A  55      30.752  -1.170 -31.559  0.50 16.33           C  \\nATOM    435  OD1 ASN A  55      30.405  -1.679 -32.645  0.50 15.28           O  \\nATOM    436  ND2 ASN A  55      32.004  -0.737 -31.339  0.50 17.57           N  \\nATOM    437  N   GLY A  56      29.441  -2.884 -27.041  1.00 17.17           N  \\nATOM    438  CA  GLY A  56      29.107  -2.757 -25.606  1.00 15.09           C  \\nATOM    439  C   GLY A  56      27.651  -2.511 -25.272  1.00 13.62           C  \\nATOM    440  O   GLY A  56      27.334  -2.204 -24.136  1.00 13.57           O  \\nATOM    441  N   VAL A  57      26.748  -2.702 -26.236  1.00 13.31           N  \\nATOM    442  CA  VAL A  57      25.346  -2.490 -26.026  1.00 13.69           C  \\nATOM    443  C   VAL A  57      24.535  -3.599 -26.695  1.00 12.83           C  \\nATOM    444  O   VAL A  57      24.850  -4.088 -27.791  1.00 12.42           O  \\nATOM    445  CB  VAL A  57      24.859  -1.101 -26.538  1.00 15.47           C  \\nATOM    446  CG1 VAL A  57      23.410  -0.916 -26.178  1.00 13.56           C  \\nATOM    447  CG2 VAL A  57      25.705   0.016 -25.893  1.00 14.18           C  \\nATOM    448  N   ILE A  58      23.511  -4.022 -25.982  1.00 13.06           N  \\nATOM    449  CA  ILE A  58      22.602  -5.022 -26.493  1.00 12.11           C  \\nATOM    450  C   ILE A  58      21.164  -4.584 -26.292  1.00 12.45           C  \\nATOM    451  O   ILE A  58      20.885  -3.604 -25.568  1.00 13.66           O  \\nATOM    452  CB  ILE A  58      22.798  -6.421 -25.791  1.00 10.33           C  \\nATOM    453  CG1 ILE A  58      22.427  -6.352 -24.291  1.00 12.49           C  \\nATOM    454  CG2 ILE A  58      24.250  -7.024 -26.093  1.00 12.03           C  \\nATOM    455  CD1 ILE A  58      22.387  -7.785 -23.587  1.00  9.93           C  \\nATOM    456  N   THR A  59      20.253  -5.328 -26.935  1.00 12.65           N  \\nATOM    457  CA  THR A  59      18.812  -5.151 -26.769  1.00 13.78           C  \\nATOM    458  C   THR A  59      18.222  -5.960 -25.596  1.00 14.47           C  \\nATOM    459  O   THR A  59      18.852  -6.901 -25.069  1.00 12.93           O  \\nATOM    460  CB  THR A  59      18.073  -5.512 -28.073  1.00 15.34           C  \\nATOM    461  OG1 THR A  59      18.130  -6.940 -28.269  1.00 14.31           O  \\nATOM    462  CG2 THR A  59      18.685  -4.675 -29.284  1.00 14.99           C  \\nATOM    463  N   LYS A  60      16.981  -5.603 -25.230  1.00 15.15           N  \\nATOM    464  CA  LYS A  60      16.272  -6.347 -24.200  1.00 15.55           C  \\nATOM    465  C   LYS A  60      16.150  -7.794 -24.630  1.00 15.96           C  \\nATOM    466  O   LYS A  60      16.365  -8.714 -23.817  1.00 15.57           O  \\nATOM    467  CB  LYS A  60      14.914  -5.735 -23.901  1.00 15.63           C  \\nATOM    468  CG  LYS A  60      14.212  -6.387 -22.697  1.00 14.56           C  \\nATOM    469  CD  LYS A  60      13.071  -5.601 -22.181  1.00 16.36           C  \\nATOM    470  CE  LYS A  60      12.125  -6.493 -21.386  1.00 21.55           C  \\nATOM    471  NZ  LYS A  60      10.958  -5.776 -20.764  0.50 24.65           N  \\nATOM    472  N   ASP A  61      15.803  -8.011 -25.912  1.00 16.94           N  \\nATOM    473  CA  ASP A  61      15.634  -9.389 -26.387  1.00 15.82           C  \\nATOM    474  C   ASP A  61      16.949 -10.149 -26.254  1.00 13.72           C  \\nATOM    475  O   ASP A  61      16.957 -11.323 -25.851  1.00 12.79           O  \\nATOM    476  CB  ASP A  61      15.230  -9.414 -27.845  1.00 16.67           C  \\nATOM    477  CG  ASP A  61      13.789  -9.038 -28.059  1.00 22.04           C  \\nATOM    478  OD1 ASP A  61      13.035  -8.672 -27.114  1.00 24.22           O  \\nATOM    479  OD2 ASP A  61      13.389  -9.094 -29.238  1.00 29.10           O  \\nATOM    480  N   GLU A  62      18.050  -9.502 -26.637  1.00 12.95           N  \\nATOM    481  CA  GLU A  62      19.371 -10.153 -26.539  1.00 13.13           C  \\nATOM    482  C   GLU A  62      19.666 -10.403 -25.071  1.00 11.06           C  \\nATOM    483  O   GLU A  62      20.270 -11.425 -24.758  1.00 10.10           O  \\nATOM    484  CB  GLU A  62      20.457  -9.318 -27.156  1.00 13.17           C  \\nATOM    485  CG  GLU A  62      20.188  -9.063 -28.645  1.00 16.48           C  \\nATOM    486  CD  GLU A  62      21.138  -8.105 -29.365  1.00 16.24           C  \\nATOM    487  OE1 GLU A  62      21.583  -7.055 -28.815  1.00 15.48           O  \\nATOM    488  OE2 GLU A  62      21.446  -8.420 -30.546  1.00 15.92           O  \\nATOM    489  N   ALA A  63      19.276  -9.464 -24.174  1.00 10.00           N  \\nATOM    490  CA  ALA A  63      19.507  -9.712 -22.738  1.00  8.92           C  \\nATOM    491  C   ALA A  63      18.773 -10.963 -22.260  1.00 10.79           C  \\nATOM    492  O   ALA A  63      19.393 -11.814 -21.590  1.00 11.01           O  \\nATOM    493  CB  ALA A  63      19.137  -8.549 -21.890  1.00 11.14           C  \\nATOM    494  N   GLU A  64      17.476 -11.074 -22.613  1.00 10.55           N  \\nATOM    495  CA  GLU A  64      16.654 -12.183 -22.194  1.00  9.59           C  \\nATOM    496  C   GLU A  64      17.154 -13.459 -22.831  1.00 10.50           C  \\nATOM    497  O   GLU A  64      17.118 -14.491 -22.222  1.00 10.93           O  \\nATOM    498  CB  GLU A  64      15.227 -11.879 -22.514  1.00 11.46           C  \\nATOM    499  CG  GLU A  64      14.650 -10.758 -21.559  1.00 12.95           C  \\nATOM    500  CD  GLU A  64      13.361 -10.129 -22.108  1.00 19.94           C  \\nATOM    501  OE1 GLU A  64      13.046 -10.395 -23.301  1.00 21.72           O  \\nATOM    502  OE2 GLU A  64      12.700  -9.325 -21.383  1.00 21.66           O  \\nATOM    503  N   LYS A  65      17.681 -13.388 -24.050  1.00  9.94           N  \\nATOM    504  CA  LYS A  65      18.256 -14.589 -24.614  1.00 10.27           C  \\nATOM    505  C   LYS A  65      19.452 -15.142 -23.818  1.00 10.44           C  \\nATOM    506  O   LYS A  65      19.510 -16.322 -23.500  1.00  8.28           O  \\nATOM    507  CB  LYS A  65      18.621 -14.364 -26.077  1.00 10.94           C  \\nATOM    508  CG  LYS A  65      19.120 -15.640 -26.661  1.00  9.62           C  \\nATOM    509  CD  LYS A  65      19.273 -15.438 -28.137  1.00 18.05           C  \\nATOM    510  CE  LYS A  65      19.717 -16.760 -28.669  1.00 20.75           C  \\nATOM    511  NZ  LYS A  65      19.257 -16.995 -30.009  1.00 22.44           N  \\nATOM    512  N   LEU A  66      20.416 -14.292 -23.518  1.00 11.27           N  \\nATOM    513  CA  LEU A  66      21.577 -14.664 -22.689  1.00 10.98           C  \\nATOM    514  C   LEU A  66      21.059 -15.219 -21.339  1.00 10.20           C  \\nATOM    515  O   LEU A  66      21.603 -16.197 -20.770  1.00  8.48           O  \\nATOM    516  CB  LEU A  66      22.431 -13.396 -22.435  1.00 11.43           C  \\nATOM    517  CG  LEU A  66      23.246 -12.880 -23.691  1.00 10.72           C  \\nATOM    518  CD1 LEU A  66      23.979 -11.568 -23.276  1.00 15.89           C  \\nATOM    519  CD2 LEU A  66      24.275 -13.877 -24.098  1.00 17.06           C  \\nATOM    520  N   PHE A  67      20.045 -14.540 -20.815  1.00 10.45           N  \\nATOM    521  CA  PHE A  67      19.483 -14.876 -19.493  1.00 11.64           C  \\nATOM    522  C   PHE A  67      18.889 -16.290 -19.535  1.00 11.66           C  \\nATOM    523  O   PHE A  67      19.155 -17.127 -18.662  1.00 12.35           O  \\nATOM    524  CB  PHE A  67      18.431 -13.838 -19.108  1.00 10.74           C  \\nATOM    525  CG  PHE A  67      17.788 -14.043 -17.704  1.00 13.29           C  \\nATOM    526  CD1 PHE A  67      18.546 -14.451 -16.611  1.00 11.59           C  \\nATOM    527  CD2 PHE A  67      16.417 -13.717 -17.508  1.00 14.66           C  \\nATOM    528  CE1 PHE A  67      18.012 -14.551 -15.339  1.00 13.70           C  \\nATOM    529  CE2 PHE A  67      15.844 -13.829 -16.240  1.00  8.46           C  \\nATOM    530  CZ  PHE A  67      16.641 -14.258 -15.165  1.00 14.46           C  \\nATOM    531  N   ASN A  68      18.036 -16.548 -20.516  1.00 11.62           N  \\nATOM    532  CA AASN A  68      17.541 -17.893 -20.780  0.50 11.70           C  \\nATOM    533  C   ASN A  68      18.665 -18.909 -20.772  1.00 11.78           C  \\nATOM    534  O   ASN A  68      18.594 -19.936 -20.142  1.00 13.01           O  \\nATOM    535  CB AASN A  68      16.820 -17.901 -22.136  0.50 11.53           C  \\nATOM    536  CG AASN A  68      15.372 -17.443 -22.038  0.50 12.13           C  \\nATOM    537  OD1AASN A  68      14.742 -17.598 -20.989  0.50 13.94           O  \\nATOM    538  ND2AASN A  68      14.830 -16.893 -23.139  0.50  8.69           N  \\nATOM    539  N   GLN A  69      19.727 -18.630 -21.556  1.00 11.81           N  \\nATOM    540  CA  GLN A  69      20.846 -19.553 -21.615  1.00 11.54           C  \\nATOM    541  C   GLN A  69      21.544 -19.724 -20.245  1.00 12.95           C  \\nATOM    542  O   GLN A  69      21.915 -20.861 -19.870  1.00 12.00           O  \\nATOM    543  CB  GLN A  69      21.893 -19.068 -22.615  1.00 12.40           C  \\nATOM    544  CG  GLN A  69      21.358 -19.052 -23.987  1.00  9.65           C  \\nATOM    545  CD  GLN A  69      22.297 -18.543 -25.025  1.00 15.93           C  \\nATOM    546  OE1 GLN A  69      22.004 -18.771 -26.199  1.00 14.26           O  \\nATOM    547  NE2 GLN A  69      23.447 -17.857 -24.639  1.00  7.52           N  \\nATOM    548  N   ASP A  70      21.682 -18.609 -19.520  1.00 12.06           N  \\nATOM    549  CA  ASP A  70      22.362 -18.581 -18.205  1.00 13.01           C  \\nATOM    550  C   ASP A  70      21.603 -19.373 -17.141  1.00 13.30           C  \\nATOM    551  O   ASP A  70      22.218 -20.158 -16.423  1.00 13.91           O  \\nATOM    552  CB  ASP A  70      22.656 -17.133 -17.741  1.00 12.93           C  \\nATOM    553  CG  ASP A  70      23.751 -16.485 -18.601  1.00 12.85           C  \\nATOM    554  OD1 ASP A  70      24.358 -17.190 -19.432  1.00 10.38           O  \\nATOM    555  OD2 ASP A  70      23.960 -15.296 -18.478  1.00 15.54           O  \\nATOM    556  N   VAL A  71      20.282 -19.221 -17.121  1.00 13.81           N  \\nATOM    557  CA  VAL A  71      19.446 -19.962 -16.161  1.00 14.32           C  \\nATOM    558  C   VAL A  71      19.507 -21.448 -16.479  1.00 13.97           C  \\nATOM    559  O   VAL A  71      19.792 -22.277 -15.617  1.00 13.66           O  \\nATOM    560  CB  VAL A  71      18.053 -19.421 -16.128  1.00 14.69           C  \\nATOM    561  CG1 VAL A  71      17.122 -20.311 -15.207  1.00 17.08           C  \\nATOM    562  CG2 VAL A  71      18.085 -17.953 -15.713  1.00 13.00           C  \\nATOM    563  N   ASP A  72      19.282 -21.772 -17.752  1.00 13.09           N  \\nATOM    564  CA AASP A  72      19.329 -23.119 -18.221  0.50 12.65           C  \\nATOM    565  C   ASP A  72      20.672 -23.728 -17.839  1.00 13.46           C  \\nATOM    566  O   ASP A  72      20.747 -24.804 -17.204  1.00 13.48           O  \\nATOM    567  CB AASP A  72      19.131 -23.105 -19.725  0.50 12.21           C  \\nATOM    568  CG AASP A  72      18.850 -24.456 -20.279  0.50 15.38           C  \\nATOM    569  OD1AASP A  72      18.703 -25.384 -19.461  0.50 14.46           O  \\nATOM    570  OD2AASP A  72      18.757 -24.584 -21.537  0.50 17.74           O  \\nATOM    571  N   ALA A  73      21.753 -23.034 -18.193  1.00 14.64           N  \\nATOM    572  CA  ALA A  73      23.066 -23.541 -17.803  1.00 16.63           C  \\nATOM    573  C   ALA A  73      23.235 -23.723 -16.280  1.00 15.99           C  \\nATOM    574  O   ALA A  73      23.863 -24.709 -15.861  1.00 16.82           O  \\nATOM    575  CB  ALA A  73      24.160 -22.645 -18.298  1.00 18.31           C  \\nATOM    576  N   ALA A  74      22.722 -22.800 -15.474  1.00 15.03           N  \\nATOM    577  CA  ALA A  74      22.859 -22.917 -13.996  1.00 14.63           C  \\nATOM    578  C   ALA A  74      22.242 -24.300 -13.543  1.00 14.71           C  \\nATOM    579  O   ALA A  74      22.849 -25.018 -12.790  1.00 15.11           O  \\nATOM    580  CB  ALA A  74      22.249 -21.719 -13.277  1.00 12.58           C  \\nATOM    581  N   VAL A  75      21.082 -24.664 -14.104  1.00 14.47           N  \\nATOM    582  CA  VAL A  75      20.326 -25.869 -13.679  1.00 15.31           C  \\nATOM    583  C   VAL A  75      21.103 -27.088 -14.098  1.00 16.89           C  \\nATOM    584  O   VAL A  75      21.338 -28.031 -13.300  1.00 16.13           O  \\nATOM    585  CB  VAL A  75      18.931 -25.940 -14.349  1.00 15.57           C  \\nATOM    586  CG1 VAL A  75      18.206 -27.287 -13.927  1.00 12.54           C  \\nATOM    587  CG2 VAL A  75      18.149 -24.774 -13.967  1.00 13.69           C  \\nATOM    588  N   ARG A  76      21.502 -27.052 -15.375  1.00 17.86           N  \\nATOM    589  CA  ARG A  76      22.166 -28.157 -15.972  1.00 18.45           C  \\nATOM    590  C   ARG A  76      23.495 -28.366 -15.231  1.00 18.97           C  \\nATOM    591  O   ARG A  76      23.886 -29.522 -15.042  1.00 18.42           O  \\nATOM    592  CB  ARG A  76      22.347 -27.987 -17.489  1.00 18.37           C  \\nATOM    593  CG  ARG A  76      21.030 -28.084 -18.280  1.00 21.02           C  \\nATOM    594  CD  ARG A  76      20.234 -29.467 -18.062  1.00 23.30           C  \\nATOM    595  NE  ARG A  76      20.859 -30.673 -18.667  1.00 24.78           N  \\nATOM    596  CZ  ARG A  76      20.870 -30.966 -19.981  1.00 24.82           C  \\nATOM    597  NH1 ARG A  76      20.309 -30.137 -20.881  1.00 23.72           N  \\nATOM    598  NH2 ARG A  76      21.417 -32.123 -20.383  1.00 21.50           N  \\nATOM    599  N   GLY A  77      24.123 -27.266 -14.783  1.00 17.52           N  \\nATOM    600  CA  GLY A  77      25.342 -27.371 -13.980  1.00 18.05           C  \\nATOM    601  C   GLY A  77      25.118 -28.051 -12.621  1.00 18.04           C  \\nATOM    602  O   GLY A  77      25.866 -28.978 -12.226  1.00 18.57           O  \\nATOM    603  N   ILE A  78      24.052 -27.641 -11.954  1.00 14.98           N  \\nATOM    604  CA  ILE A  78      23.681 -28.257 -10.693  1.00 15.97           C  \\nATOM    605  C   ILE A  78      23.470 -29.793 -10.905  1.00 16.71           C  \\nATOM    606  O   ILE A  78      24.019 -30.638 -10.151  1.00 16.13           O  \\nATOM    607  CB  ILE A  78      22.387 -27.607 -10.169  1.00 15.31           C  \\nATOM    608  CG1 ILE A  78      22.703 -26.258  -9.543  1.00 13.49           C  \\nATOM    609  CG2 ILE A  78      21.706 -28.544  -9.127  1.00 13.94           C  \\nATOM    610  CD1 ILE A  78      21.429 -25.340  -9.385  1.00 12.53           C  \\nATOM    611  N   LEU A  79      22.708 -30.137 -11.956  1.00 17.70           N  \\nATOM    612  CA  LEU A  79      22.342 -31.549 -12.249  1.00 18.29           C  \\nATOM    613  C   LEU A  79      23.567 -32.381 -12.593  1.00 19.08           C  \\nATOM    614  O   LEU A  79      23.559 -33.554 -12.312  1.00 20.14           O  \\nATOM    615  CB  LEU A  79      21.271 -31.636 -13.343  1.00 16.98           C  \\nATOM    616  CG  LEU A  79      19.942 -30.927 -13.080  1.00 18.32           C  \\nATOM    617  CD1 LEU A  79      18.969 -31.311 -14.196  1.00 20.14           C  \\nATOM    618  CD2 LEU A  79      19.316 -31.280 -11.687  1.00 14.70           C  \\nATOM    619  N   ARG A  80      24.639 -31.761 -13.106  1.00 20.00           N  \\nATOM    620  CA AARG A  80      25.922 -32.396 -13.482  0.50 21.00           C  \\nATOM    621  C   ARG A  80      26.840 -32.580 -12.270  1.00 21.27           C  \\nATOM    622  O   ARG A  80      27.798 -33.332 -12.294  1.00 21.73           O  \\nATOM    623  CB AARG A  80      26.679 -31.500 -14.496  0.50 20.88           C  \\nATOM    624  CG AARG A  80      26.661 -31.978 -15.932  0.50 21.97           C  \\nATOM    625  CD AARG A  80      27.524 -31.088 -16.870  0.50 21.53           C  \\nATOM    626  NE AARG A  80      26.737 -30.102 -17.636  0.50 22.62           N  \\nATOM    627  CZ AARG A  80      26.769 -28.788 -17.456  0.50 17.84           C  \\nATOM    628  NH1AARG A  80      27.557 -28.243 -16.540  0.50 20.02           N  \\nATOM    629  NH2AARG A  80      26.024 -28.018 -18.226  0.50 20.52           N  \\nATOM    630  N   ASN A  81      26.536 -31.869 -11.203  1.00 20.47           N  \\nATOM    631  CA  ASN A  81      27.380 -31.831 -10.030  1.00 18.36           C  \\nATOM    632  C   ASN A  81      26.972 -32.828  -8.945  1.00 16.30           C  \\nATOM    633  O   ASN A  81      25.905 -32.741  -8.334  1.00 16.06           O  \\nATOM    634  CB  ASN A  81      27.447 -30.405  -9.547  1.00 18.17           C  \\nATOM    635  CG  ASN A  81      28.455 -30.186  -8.428  1.00 18.04           C  \\nATOM    636  OD1 ASN A  81      28.467 -30.868  -7.416  1.00 18.71           O  \\nATOM    637  ND2 ASN A  81      29.217 -29.158  -8.563  1.00 16.25           N  \\nATOM    638  N   ALA A  82      27.848 -33.795  -8.728  1.00 16.51           N  \\nATOM    639  CA  ALA A  82      27.607 -34.849  -7.726  1.00 17.01           C  \\nATOM    640  C   ALA A  82      27.338 -34.313  -6.348  1.00 16.74           C  \\nATOM    641  O   ALA A  82      26.596 -34.947  -5.598  1.00 17.60           O  \\nATOM    642  CB  ALA A  82      28.775 -35.854  -7.667  1.00 16.45           C  \\nATOM    643  N   LYS A  83      28.010 -33.219  -5.938  1.00 17.87           N  \\nATOM    644  CA  LYS A  83      27.694 -32.636  -4.634  1.00 18.19           C  \\nATOM    645  C   LYS A  83      26.325 -31.918  -4.610  1.00 16.92           C  \\nATOM    646  O   LYS A  83      25.613 -31.921  -3.576  1.00 15.75           O  \\nATOM    647  CB  LYS A  83      28.770 -31.632  -4.191  1.00 21.02           C  \\nATOM    648  CG  LYS A  83      30.229 -32.140  -3.925  1.00 21.08           C  \\nATOM    649  CD  LYS A  83      30.272 -33.505  -3.162  1.00 25.06           C  \\nATOM    650  CE  LYS A  83      31.717 -34.072  -3.176  0.50 22.78           C  \\nATOM    651  NZ  LYS A  83      31.791 -35.494  -2.660  0.50 21.91           N  \\nATOM    652  N   LEU A  84      25.966 -31.254  -5.698  1.00 15.29           N  \\nATOM    653  CA  LEU A  84      24.751 -30.451  -5.706  1.00 13.58           C  \\nATOM    654  C   LEU A  84      23.466 -31.194  -6.041  1.00 12.55           C  \\nATOM    655  O   LEU A  84      22.428 -30.921  -5.469  1.00 11.18           O  \\nATOM    656  CB  LEU A  84      24.852 -29.184  -6.614  1.00 13.15           C  \\nATOM    657  CG  LEU A  84      26.065 -28.311  -6.204  1.00 15.68           C  \\nATOM    658  CD1 LEU A  84      26.191 -27.075  -7.087  1.00 16.32           C  \\nATOM    659  CD2 LEU A  84      25.995 -27.895  -4.722  1.00 14.11           C  \\nATOM    660  N   LYS A  85      23.515 -32.069  -7.022  1.00 13.06           N  \\nATOM    661  CA  LYS A  85      22.313 -32.704  -7.507  1.00 12.55           C  \\nATOM    662  C   LYS A  85      21.534 -33.396  -6.373  1.00 12.36           C  \\nATOM    663  O   LYS A  85      20.339 -33.227  -6.321  1.00 11.04           O  \\nATOM    664  CB  LYS A  85      22.673 -33.751  -8.539  1.00 12.48           C  \\nATOM    665  CG  LYS A  85      21.472 -34.332  -9.236  1.00 14.44           C  \\nATOM    666  CD  LYS A  85      21.993 -35.262 -10.277  1.00 15.12           C  \\nATOM    667  CE  LYS A  85      20.899 -35.812 -11.231  1.00 21.52           C  \\nATOM    668  NZ  LYS A  85      19.645 -36.159 -10.573  1.00 27.30           N  \\nATOM    669  N   PRO A  86      22.209 -34.190  -5.494  1.00 13.36           N  \\nATOM    670  CA  PRO A  86      21.280 -34.862  -4.535  1.00 15.21           C  \\nATOM    671  C   PRO A  86      20.522 -33.860  -3.645  1.00 13.25           C  \\nATOM    672  O   PRO A  86      19.345 -34.059  -3.320  1.00 16.43           O  \\nATOM    673  CB  PRO A  86      22.178 -35.800  -3.746  1.00 15.18           C  \\nATOM    674  CG  PRO A  86      23.555 -35.276  -3.923  1.00 17.57           C  \\nATOM    675  CD  PRO A  86      23.593 -34.585  -5.289  1.00 14.59           C  \\nATOM    676  N   VAL A  87      21.162 -32.734  -3.333  1.00 12.97           N  \\nATOM    677  CA  VAL A  87      20.538 -31.742  -2.481  1.00 11.84           C  \\nATOM    678  C   VAL A  87      19.384 -31.031  -3.215  1.00 10.58           C  \\nATOM    679  O   VAL A  87      18.285 -30.956  -2.712  1.00 11.03           O  \\nATOM    680  CB  VAL A  87      21.580 -30.741  -1.902  1.00 10.54           C  \\nATOM    681  CG1 VAL A  87      20.855 -29.791  -0.991  1.00  9.28           C  \\nATOM    682  CG2 VAL A  87      22.690 -31.532  -1.118  1.00  8.89           C  \\nATOM    683  N   TYR A  88      19.657 -30.592  -4.441  1.00 11.45           N  \\nATOM    684  CA  TYR A  88      18.735 -29.889  -5.249  1.00 11.18           C  \\nATOM    685  C   TYR A  88      17.515 -30.773  -5.493  1.00 10.20           C  \\nATOM    686  O   TYR A  88      16.374 -30.335  -5.311  1.00 11.44           O  \\nATOM    687  CB  TYR A  88      19.432 -29.606  -6.576  1.00 12.02           C  \\nATOM    688  CG  TYR A  88      18.583 -28.932  -7.610  1.00 13.71           C  \\nATOM    689  CD1 TYR A  88      18.417 -27.497  -7.637  1.00 14.57           C  \\nATOM    690  CD2 TYR A  88      17.953 -29.679  -8.563  1.00 18.15           C  \\nATOM    691  CE1 TYR A  88      17.638 -26.906  -8.601  1.00 14.02           C  \\nATOM    692  CE2 TYR A  88      17.170 -29.092  -9.528  1.00 16.88           C  \\nATOM    693  CZ  TYR A  88      17.019 -27.705  -9.560  1.00 18.17           C  \\nATOM    694  OH  TYR A  88      16.204 -27.127 -10.551  1.00 19.79           O  \\nATOM    695  N   ASP A  89      17.776 -32.049  -5.774  1.00 10.74           N  \\nATOM    696  CA  ASP A  89      16.674 -33.006  -6.065  1.00 12.94           C  \\nATOM    697  C   ASP A  89      15.829 -33.304  -4.823  1.00 12.44           C  \\nATOM    698  O   ASP A  89      14.621 -33.549  -4.925  1.00 13.04           O  \\nATOM    699  CB  ASP A  89      17.194 -34.257  -6.743  1.00 13.12           C  \\nATOM    700  CG  ASP A  89      17.303 -34.074  -8.236  1.00 13.91           C  \\nATOM    701  OD1 ASP A  89      16.892 -33.042  -8.766  1.00 15.52           O  \\nATOM    702  OD2 ASP A  89      17.756 -34.978  -8.898  1.00 21.38           O  \\nATOM    703  N   SER A  90      16.409 -33.106  -3.638  1.00 11.72           N  \\nATOM    704  CA  SER A  90      15.660 -33.220  -2.405  1.00 10.95           C  \\nATOM    705  C   SER A  90      14.740 -32.080  -2.107  1.00 10.69           C  \\nATOM    706  O   SER A  90      13.852 -32.248  -1.280  1.00 12.25           O  \\nATOM    707  CB  SER A  90      16.581 -33.479  -1.198  1.00 12.41           C  \\nATOM    708  OG  SER A  90      17.194 -32.313  -0.763  1.00 11.47           O  \\nATOM    709  N   LEU A  91      14.952 -30.915  -2.737  1.00  9.12           N  \\nATOM    710  CA  LEU A  91      14.219 -29.656  -2.481  1.00 10.06           C  \\nATOM    711  C   LEU A  91      12.899 -29.664  -3.226  1.00 11.73           C  \\nATOM    712  O   LEU A  91      12.775 -30.329  -4.247  1.00 12.75           O  \\nATOM    713  CB  LEU A  91      15.033 -28.380  -2.897  1.00  9.72           C  \\nATOM    714  CG  LEU A  91      16.397 -28.299  -2.172  1.00 10.30           C  \\nATOM    715  CD1 LEU A  91      17.225 -27.138  -2.620  1.00  9.12           C  \\nATOM    716  CD2 LEU A  91      16.127 -28.114  -0.655  1.00  7.71           C  \\nATOM    717  N   ASP A  92      11.901 -29.001  -2.645  1.00  9.35           N  \\nATOM    718  CA  ASP A  92      10.708 -28.583  -3.358  1.00 10.21           C  \\nATOM    719  C   ASP A  92      11.087 -27.496  -4.376  1.00 10.92           C  \\nATOM    720  O   ASP A  92      12.196 -26.961  -4.323  1.00  8.42           O  \\nATOM    721  CB  ASP A  92       9.779 -27.935  -2.344  1.00  9.21           C  \\nATOM    722  CG  ASP A  92      10.462 -26.795  -1.590  1.00 11.69           C  \\nATOM    723  OD1 ASP A  92      10.324 -25.664  -2.069  1.00 11.88           O  \\nATOM    724  OD2 ASP A  92      11.169 -27.048  -0.563  1.00  8.60           O  \\nATOM    725  N   ALA A  93      10.135 -27.105  -5.210  1.00 11.76           N  \\nATOM    726  CA  ALA A  93      10.459 -26.266  -6.361  1.00 11.76           C  \\nATOM    727  C   ALA A  93      10.819 -24.799  -5.973  1.00 12.10           C  \\nATOM    728  O   ALA A  93      11.607 -24.135  -6.660  1.00 13.45           O  \\nATOM    729  CB  ALA A  93       9.300 -26.308  -7.353  1.00 12.18           C  \\nATOM    730  N   VAL A  94      10.265 -24.324  -4.887  1.00 10.43           N  \\nATOM    731  CA  VAL A  94      10.563 -22.938  -4.494  1.00 10.59           C  \\nATOM    732  C   VAL A  94      12.014 -22.930  -3.997  1.00 11.05           C  \\nATOM    733  O   VAL A  94      12.808 -22.118  -4.468  1.00 10.69           O  \\nATOM    734  CB  VAL A  94       9.579 -22.389  -3.465  1.00 10.05           C  \\nATOM    735  CG1 VAL A  94       9.988 -20.922  -3.089  1.00 11.85           C  \\nATOM    736  CG2 VAL A  94       8.204 -22.392  -4.010  1.00 12.61           C  \\nATOM    737  N   ARG A  95      12.371 -23.875  -3.110  1.00  8.92           N  \\nATOM    738  CA  ARG A  95      13.760 -23.926  -2.600  1.00  9.62           C  \\nATOM    739  C   ARG A  95      14.742 -24.247  -3.756  1.00  9.72           C  \\nATOM    740  O   ARG A  95      15.857 -23.756  -3.748  1.00  8.79           O  \\nATOM    741  CB  ARG A  95      13.836 -24.966  -1.488  1.00 11.89           C  \\nATOM    742  CG  ARG A  95      13.277 -24.382  -0.244  1.00 10.80           C  \\nATOM    743  CD  ARG A  95      13.419 -25.320   0.867  1.00 11.93           C  \\nATOM    744  NE  ARG A  95      12.876 -24.781   2.106  1.00 11.55           N  \\nATOM    745  CZ  ARG A  95      11.655 -25.119   2.579  1.00 11.32           C  \\nATOM    746  NH1 ARG A  95      10.848 -25.885   1.879  1.00 12.81           N  \\nATOM    747  NH2 ARG A  95      11.211 -24.679   3.739  1.00 11.15           N  \\nATOM    748  N   ARG A  96      14.345 -25.065  -4.745  1.00  9.12           N  \\nATOM    749  CA AARG A  96      15.185 -25.273  -5.950  0.50  8.63           C  \\nATOM    750  C   ARG A  96      15.495 -23.932  -6.656  1.00  7.08           C  \\nATOM    751  O   ARG A  96      16.568 -23.755  -7.190  1.00  8.19           O  \\nATOM    752  CB AARG A  96      14.515 -26.228  -6.922  0.50  8.23           C  \\nATOM    753  CG AARG A  96      14.768 -27.705  -6.629  0.50  9.50           C  \\nATOM    754  CD AARG A  96      13.742 -28.551  -7.424  0.50 10.51           C  \\nATOM    755  NE AARG A  96      13.699 -29.939  -6.952  0.50  6.20           N  \\nATOM    756  CZ AARG A  96      13.153 -30.933  -7.645  0.50  6.83           C  \\nATOM    757  NH1AARG A  96      12.587 -30.642  -8.813  0.50  8.36           N  \\nATOM    758  NH2AARG A  96      13.157 -32.198  -7.165  0.50  5.25           N  \\nATOM    759  N   CYS A  97      14.542 -22.988  -6.653  1.00  8.69           N  \\nATOM    760  CA  CYS A  97      14.791 -21.653  -7.256  1.00  8.03           C  \\nATOM    761  C   CYS A  97      15.864 -20.875  -6.507  1.00  8.90           C  \\nATOM    762  O   CYS A  97      16.715 -20.228  -7.101  1.00 10.59           O  \\nATOM    763  CB  CYS A  97      13.521 -20.831  -7.294  1.00  7.91           C  \\nATOM    764  SG  CYS A  97      12.333 -21.430  -8.509  1.00 12.20           S  \\nATOM    765  N   ALA A  98      15.833 -21.000  -5.191  1.00  9.06           N  \\nATOM    766  CA  ALA A  98      16.902 -20.479  -4.327  1.00  8.80           C  \\nATOM    767  C   ALA A  98      18.283 -21.031  -4.676  1.00  8.73           C  \\nATOM    768  O   ALA A  98      19.300 -20.264  -4.795  1.00 10.13           O  \\nATOM    769  CB  ALA A  98      16.518 -20.760  -2.798  1.00  5.17           C  \\nATOM    770  N   ALA A  99      18.337 -22.353  -4.875  1.00  8.14           N  \\nATOM    771  CA  ALA A  99      19.545 -22.977  -5.293  1.00  9.46           C  \\nATOM    772  C   ALA A  99      20.063 -22.509  -6.628  1.00  8.72           C  \\nATOM    773  O   ALA A  99      21.288 -22.348  -6.795  1.00  9.14           O  \\nATOM    774  CB  ALA A  99      19.425 -24.530  -5.246  1.00  7.90           C  \\nATOM    775  N   ILE A 100      19.163 -22.333  -7.599  1.00 10.00           N  \\nATOM    776  CA  ILE A 100      19.533 -21.873  -8.925  1.00 11.25           C  \\nATOM    777  C   ILE A 100      20.058 -20.454  -8.854  1.00 10.47           C  \\nATOM    778  O   ILE A 100      21.064 -20.119  -9.507  1.00 10.91           O  \\nATOM    779  CB  ILE A 100      18.330 -21.935  -9.943  1.00 11.12           C  \\nATOM    780  CG1 ILE A 100      17.993 -23.392 -10.240  1.00 11.84           C  \\nATOM    781  CG2 ILE A 100      18.754 -21.252 -11.335  1.00 12.33           C  \\nATOM    782  CD1 ILE A 100      16.597 -23.601 -10.710  1.00 10.89           C  \\nATOM    783  N   ASN A 101      19.396 -19.643  -8.053  1.00  9.60           N  \\nATOM    784  CA  ASN A 101      19.780 -18.251  -7.858  1.00  9.45           C  \\nATOM    785  C   ASN A 101      21.190 -18.228  -7.300  1.00  9.85           C  \\nATOM    786  O   ASN A 101      22.059 -17.570  -7.844  1.00  7.36           O  \\nATOM    787  CB  ASN A 101      18.757 -17.616  -6.863  1.00  9.79           C  \\nATOM    788  CG  ASN A 101      18.899 -16.124  -6.756  1.00 11.86           C  \\nATOM    789  OD1 ASN A 101      20.001 -15.604  -6.532  1.00  8.31           O  \\nATOM    790  ND2 ASN A 101      17.803 -15.423  -6.923  1.00  8.50           N  \\nATOM    791  N   GLN A 102      21.432 -18.962  -6.208  1.00 10.12           N  \\nATOM    792  CA AGLN A 102      22.773 -19.016  -5.648  0.50 10.25           C  \\nATOM    793  C   GLN A 102      23.869 -19.402  -6.676  1.00 11.18           C  \\nATOM    794  O   GLN A 102      24.889 -18.719  -6.760  1.00 10.66           O  \\nATOM    795  CB AGLN A 102      22.835 -19.912  -4.426  0.50 10.09           C  \\nATOM    796  CG AGLN A 102      23.964 -19.497  -3.556  0.50  7.11           C  \\nATOM    797  CD AGLN A 102      24.309 -20.473  -2.472  0.50  6.99           C  \\nATOM    798  OE1AGLN A 102      24.096 -21.672  -2.600  0.50 12.92           O  \\nATOM    799  NE2AGLN A 102      24.931 -19.974  -1.427  0.50  7.77           N  \\nATOM    800  N   VAL A 103      23.649 -20.480  -7.431  1.00 10.87           N  \\nATOM    801  CA  VAL A 103      24.582 -20.956  -8.454  1.00 12.09           C  \\nATOM    802  C   VAL A 103      24.760 -19.919  -9.574  1.00 13.15           C  \\nATOM    803  O   VAL A 103      25.904 -19.673  -9.954  1.00 15.38           O  \\nATOM    804  CB  VAL A 103      24.236 -22.345  -8.974  1.00 13.34           C  \\nATOM    805  CG1 VAL A 103      25.129 -22.758 -10.142  1.00 14.34           C  \\nATOM    806  CG2 VAL A 103      24.491 -23.354  -7.840  1.00 11.72           C  \\nATOM    807  N   PHE A 104      23.663 -19.274 -10.027  1.00 12.45           N  \\nATOM    808  CA  PHE A 104      23.679 -18.145 -10.975  1.00 10.68           C  \\nATOM    809  C   PHE A 104      24.623 -17.044 -10.501  1.00 12.64           C  \\nATOM    810  O   PHE A 104      25.468 -16.555 -11.272  1.00 11.51           O  \\nATOM    811  CB  PHE A 104      22.257 -17.576 -11.180  1.00 11.00           C  \\nATOM    812  CG  PHE A 104      22.122 -16.652 -12.320  1.00  8.36           C  \\nATOM    813  CD1 PHE A 104      21.583 -17.092 -13.538  1.00 11.61           C  \\nATOM    814  CD2 PHE A 104      22.466 -15.320 -12.194  1.00  8.67           C  \\nATOM    815  CE1 PHE A 104      21.421 -16.175 -14.612  1.00  9.36           C  \\nATOM    816  CE2 PHE A 104      22.340 -14.431 -13.254  1.00 13.27           C  \\nATOM    817  CZ  PHE A 104      21.822 -14.865 -14.465  1.00 13.38           C  \\nATOM    818  N   GLN A 105      24.502 -16.649  -9.236  1.00 12.72           N  \\nATOM    819  CA  GLN A 105      25.319 -15.563  -8.728  1.00 15.86           C  \\nATOM    820  C   GLN A 105      26.751 -16.004  -8.510  1.00 17.35           C  \\nATOM    821  O   GLN A 105      27.691 -15.248  -8.830  1.00 17.48           O  \\nATOM    822  CB  GLN A 105      24.745 -15.058  -7.405  1.00 15.76           C  \\nATOM    823  CG  GLN A 105      25.578 -13.964  -6.774  1.00 14.27           C  \\nATOM    824  CD  GLN A 105      24.990 -13.465  -5.475  1.00 13.91           C  \\nATOM    825  OE1 GLN A 105      24.073 -14.069  -4.896  1.00 12.77           O  \\nATOM    826  NE2 GLN A 105      25.583 -12.422  -4.952  1.00 12.88           N  \\nATOM    827  N   MET A 106      26.911 -17.182  -7.927  1.00 16.86           N  \\nATOM    828  CA  MET A 106      28.168 -17.555  -7.304  1.00 19.93           C  \\nATOM    829  C   MET A 106      28.992 -18.528  -8.154  1.00 20.32           C  \\nATOM    830  O   MET A 106      30.235 -18.672  -7.947  1.00 19.35           O  \\nATOM    831  CB  MET A 106      27.924 -18.205  -5.934  1.00 18.60           C  \\nATOM    832  CG  MET A 106      27.386 -17.295  -4.850  1.00 21.31           C  \\nATOM    833  SD  MET A 106      27.471 -18.195  -3.241  1.00 24.31           S  \\nATOM    834  CE  MET A 106      29.254 -18.219  -3.077  1.00 21.71           C  \\nATOM    835  N   GLY A 107      28.305 -19.212  -9.072  1.00 19.11           N  \\nATOM    836  CA  GLY A 107      28.899 -20.293  -9.766  1.00 21.79           C  \\nATOM    837  C   GLY A 107      28.906 -21.551  -8.895  1.00 24.35           C  \\nATOM    838  O   GLY A 107      28.893 -21.551  -7.636  1.00 24.08           O  \\nATOM    839  N   GLU A 108      28.923 -22.661  -9.585  1.00 26.03           N  \\nATOM    840  CA  GLU A 108      28.804 -23.952  -8.941  1.00 27.70           C  \\nATOM    841  C   GLU A 108      30.069 -24.412  -8.154  1.00 28.39           C  \\nATOM    842  O   GLU A 108      29.948 -25.152  -7.168  1.00 30.18           O  \\nATOM    843  CB  GLU A 108      28.274 -24.891 -10.014  1.00 28.40           C  \\nATOM    844  CG  GLU A 108      28.614 -26.283  -9.905  1.00 30.02           C  \\nATOM    845  CD  GLU A 108      28.600 -26.900 -11.263  1.00 32.60           C  \\nATOM    846  OE1 GLU A 108      27.873 -26.389 -12.154  1.00 29.69           O  \\nATOM    847  OE2 GLU A 108      29.348 -27.896 -11.440  1.00 38.04           O  \\nATOM    848  N   THR A 109      31.250 -23.886  -8.486  0.50 27.47           N  \\nATOM    849  CA  THR A 109      32.414 -23.973  -7.598  0.50 26.96           C  \\nATOM    850  C   THR A 109      32.076 -23.316  -6.277  0.50 27.19           C  \\nATOM    851  O   THR A 109      32.057 -23.938  -5.197  0.50 26.88           O  \\nATOM    852  CB  THR A 109      33.597 -23.192  -8.190  0.50 26.80           C  \\nATOM    853  OG1 THR A 109      34.004 -23.821  -9.398  0.50 25.74           O  \\nATOM    854  CG2 THR A 109      34.768 -23.122  -7.219  0.50 26.77           C  \\nATOM    855  N   GLY A 110      31.829 -22.023  -6.405  1.00 27.36           N  \\nATOM    856  CA  GLY A 110      31.351 -21.143  -5.339  1.00 27.49           C  \\nATOM    857  C   GLY A 110      30.484 -21.680  -4.232  1.00 26.84           C  \\nATOM    858  O   GLY A 110      30.497 -21.143  -3.107  0.50 26.84           O  \\nATOM    859  N   VAL A 111      29.723 -22.732  -4.522  1.00 26.45           N  \\nATOM    860  CA  VAL A 111      28.772 -23.259  -3.532  1.00 26.47           C  \\nATOM    861  C   VAL A 111      28.878 -24.772  -3.281  1.00 25.98           C  \\nATOM    862  O   VAL A 111      28.406 -25.246  -2.229  1.00 26.31           O  \\nATOM    863  CB  VAL A 111      27.296 -22.956  -3.901  1.00 26.12           C  \\nATOM    864  CG1 VAL A 111      27.140 -21.547  -4.341  1.00 27.99           C  \\nATOM    865  CG2 VAL A 111      26.880 -23.853  -5.024  1.00 28.79           C  \\nATOM    866  N   ALA A 112      29.420 -25.534  -4.240  0.50 23.07           N  \\nATOM    867  CA  ALA A 112      29.546 -26.957  -4.037  0.50 21.62           C  \\nATOM    868  C   ALA A 112      30.355 -27.117  -2.781  0.50 20.44           C  \\nATOM    869  O   ALA A 112      30.278 -28.151  -2.113  0.50 19.71           O  \\nATOM    870  CB  ALA A 112      30.236 -27.620  -5.226  0.50 20.80           C  \\nATOM    871  N   GLY A 113      31.132 -26.077  -2.463  0.50 20.03           N  \\nATOM    872  CA  GLY A 113      31.970 -26.087  -1.267  0.50 20.03           C  \\nATOM    873  C   GLY A 113      31.194 -25.989   0.020  0.50 20.96           C  \\nATOM    874  O   GLY A 113      31.684 -26.463   1.023  0.50 21.46           O  \\nATOM    875  N   PHE A 114      29.986 -25.378  -0.004  0.50 21.11           N  \\nATOM    876  CA  PHE A 114      29.126 -25.087   1.195  1.00 20.65           C  \\nATOM    877  C   PHE A 114      28.571 -26.368   1.851  1.00 20.80           C  \\nATOM    878  O   PHE A 114      27.332 -26.502   2.086  1.00 20.43           O  \\nATOM    879  CB  PHE A 114      27.883 -24.332   0.771  1.00 20.55           C  \\nATOM    880  CG  PHE A 114      28.052 -22.879   0.652  1.00 21.45           C  \\nATOM    881  CD1 PHE A 114      29.220 -22.324   0.121  1.00 22.63           C  \\nATOM    882  CD2 PHE A 114      27.034 -22.035   1.068  1.00 21.02           C  \\nATOM    883  CE1 PHE A 114      29.361 -20.954  -0.006  1.00 22.30           C  \\nATOM    884  CE2 PHE A 114      27.166 -20.649   0.963  1.00 21.56           C  \\nATOM    885  CZ  PHE A 114      28.325 -20.124   0.398  1.00 17.62           C  \\nATOM    886  N   THR A 115      29.475 -27.271   2.169  1.00 20.48           N  \\nATOM    887  CA  THR A 115      29.179 -28.577   2.662  1.00 20.41           C  \\nATOM    888  C   THR A 115      28.165 -28.563   3.794  1.00 20.50           C  \\nATOM    889  O   THR A 115      27.201 -29.262   3.708  1.00 20.84           O  \\nATOM    890  CB  THR A 115      30.501 -29.245   3.078  1.00 20.89           C  \\nATOM    891  OG1 THR A 115      31.424 -29.087   1.987  1.00 23.33           O  \\nATOM    892  CG2 THR A 115      30.335 -30.728   3.347  1.00 18.66           C  \\nATOM    893  N   ASN A 116      28.371 -27.746   4.839  1.00 18.21           N  \\nATOM    894  CA  ASN A 116      27.469 -27.822   5.988  1.00 17.50           C  \\nATOM    895  C   ASN A 116      26.065 -27.346   5.652  1.00 13.78           C  \\nATOM    896  O   ASN A 116      25.105 -27.922   6.095  1.00 13.64           O  \\nATOM    897  CB  ASN A 116      28.106 -27.124   7.250  1.00 17.58           C  \\nATOM    898  CG  ASN A 116      29.504 -27.696   7.556  1.00 24.31           C  \\nATOM    899  OD1 ASN A 116      29.717 -28.907   7.411  1.00 29.56           O  \\nATOM    900  ND2 ASN A 116      30.470 -26.841   7.880  1.00 20.62           N  \\nATOM    901  N   SER A 117      25.952 -26.296   4.848  1.00 14.67           N  \\nATOM    902  CA  SER A 117      24.664 -25.789   4.444  1.00 12.70           C  \\nATOM    903  C   SER A 117      23.935 -26.835   3.589  1.00 13.95           C  \\nATOM    904  O   SER A 117      22.726 -26.999   3.751  1.00 11.13           O  \\nATOM    905  CB  SER A 117      24.749 -24.492   3.610  1.00 13.93           C  \\nATOM    906  OG  SER A 117      24.987 -23.395   4.421  1.00 16.91           O  \\nATOM    907  N   LEU A 118      24.680 -27.490   2.672  1.00 12.01           N  \\nATOM    908  CA  LEU A 118      24.140 -28.552   1.825  1.00 11.90           C  \\nATOM    909  C   LEU A 118      23.588 -29.687   2.682  1.00 12.14           C  \\nATOM    910  O   LEU A 118      22.451 -30.094   2.500  1.00 13.71           O  \\nATOM    911  CB  LEU A 118      25.203 -29.056   0.878  1.00 13.88           C  \\nATOM    912  CG  LEU A 118      25.595 -28.144  -0.309  1.00 12.09           C  \\nATOM    913  CD1 LEU A 118      26.960 -28.688  -0.910  1.00 13.87           C  \\nATOM    914  CD2 LEU A 118      24.462 -28.057  -1.353  1.00 16.87           C  \\nATOM    915  N   ARG A 119      24.386 -30.183   3.633  1.00 11.98           N  \\nATOM    916  CA  ARG A 119      23.886 -31.245   4.515  1.00 11.24           C  \\nATOM    917  C   ARG A 119      22.593 -30.742   5.202  1.00 11.22           C  \\nATOM    918  O   ARG A 119      21.570 -31.410   5.227  1.00  8.74           O  \\nATOM    919  CB  ARG A 119      24.954 -31.713   5.499  1.00 11.08           C  \\nATOM    920  CG  ARG A 119      24.600 -32.960   6.276  1.00 10.79           C  \\nATOM    921  CD  ARG A 119      25.527 -33.168   7.535  1.00 16.78           C  \\nATOM    922  NE  ARG A 119      25.625 -31.919   8.307  1.00 21.45           N  \\nATOM    923  CZ  ARG A 119      26.668 -31.083   8.324  1.00 29.04           C  \\nATOM    924  NH1 ARG A 119      26.543 -29.952   9.036  1.00 30.09           N  \\nATOM    925  NH2 ARG A 119      27.812 -31.376   7.662  1.00 25.65           N  \\nATOM    926  N   MET A 120      22.583 -29.522   5.725  1.00  9.62           N  \\nATOM    927  CA  MET A 120      21.418 -29.091   6.484  1.00 11.98           C  \\nATOM    928  C   MET A 120      20.134 -28.959   5.604  1.00 11.50           C  \\nATOM    929  O   MET A 120      19.002 -29.260   6.022  1.00  9.90           O  \\nATOM    930  CB  MET A 120      21.732 -27.796   7.222  1.00 11.41           C  \\nATOM    931  CG  MET A 120      22.750 -28.005   8.432  1.00 14.40           C  \\nATOM    932  SD  MET A 120      23.272 -26.344   8.882  1.00 16.62           S  \\nATOM    933  CE  MET A 120      24.670 -26.596   9.954  1.00 12.89           C  \\nATOM    934  N   LEU A 121      20.353 -28.505   4.371  1.00  8.95           N  \\nATOM    935  CA  LEU A 121      19.268 -28.354   3.446  1.00 10.95           C  \\nATOM    936  C   LEU A 121      18.731 -29.725   3.085  1.00  9.95           C  \\nATOM    937  O   LEU A 121      17.498 -29.930   3.091  1.00 10.79           O  \\nATOM    938  CB  LEU A 121      19.741 -27.609   2.202  1.00  9.04           C  \\nATOM    939  CG  LEU A 121      19.936 -26.112   2.375  1.00 11.90           C  \\nATOM    940  CD1 LEU A 121      20.679 -25.667   1.152  1.00 13.70           C  \\nATOM    941  CD2 LEU A 121      18.519 -25.356   2.591  1.00 11.27           C  \\nATOM    942  N   GLN A 122      19.663 -30.658   2.845  1.00 10.83           N  \\nATOM    943  CA  GLN A 122      19.257 -32.019   2.510  1.00 12.46           C  \\nATOM    944  C   GLN A 122      18.462 -32.615   3.648  1.00 12.54           C  \\nATOM    945  O   GLN A 122      17.474 -33.322   3.407  1.00 14.71           O  \\nATOM    946  CB  GLN A 122      20.407 -32.970   2.112  1.00 12.14           C  \\nATOM    947  CG  GLN A 122      19.742 -34.131   1.363  1.00 18.62           C  \\nATOM    948  CD  GLN A 122      20.606 -35.004   0.544  1.00 24.30           C  \\nATOM    949  OE1 GLN A 122      21.807 -34.819   0.482  1.00 27.12           O  \\nATOM    950  NE2 GLN A 122      19.977 -36.021  -0.112  1.00 29.08           N  \\nATOM    951  N   GLN A 123      18.911 -32.317   4.870  1.00 10.26           N  \\nATOM    952  CA  GLN A 123      18.208 -32.763   6.077  1.00 12.09           C  \\nATOM    953  C   GLN A 123      16.931 -32.015   6.330  1.00 10.49           C  \\nATOM    954  O   GLN A 123      16.200 -32.435   7.234  1.00 10.22           O  \\nATOM    955  CB  GLN A 123      19.106 -32.643   7.291  1.00 12.65           C  \\nATOM    956  CG  GLN A 123      20.318 -33.565   7.214  1.00 14.54           C  \\nATOM    957  CD  GLN A 123      21.269 -33.210   8.330  1.00 20.20           C  \\nATOM    958  OE1 GLN A 123      21.588 -32.053   8.569  1.00 23.54           O  \\nATOM    959  NE2 GLN A 123      21.653 -34.202   9.077  1.00 21.25           N  \\nATOM    960  N   LYS A 124      16.695 -30.900   5.600  1.00  8.77           N  \\nATOM    961  CA  LYS A 124      15.551 -30.031   5.775  1.00  9.57           C  \\nATOM    962  C   LYS A 124      15.472 -29.396   7.157  1.00 10.32           C  \\nATOM    963  O   LYS A 124      14.365 -29.133   7.691  1.00  8.99           O  \\nATOM    964  CB  LYS A 124      14.224 -30.803   5.496  1.00 10.84           C  \\nATOM    965  CG  LYS A 124      14.247 -31.517   4.127  1.00 10.03           C  \\nATOM    966  CD  LYS A 124      12.790 -31.774   3.726  1.00 14.12           C  \\nATOM    967  CE  LYS A 124      12.723 -32.564   2.425  1.00 13.03           C  \\nATOM    968  NZ  LYS A 124      13.073 -31.565   1.389  1.00 11.75           N  \\nATOM    969  N   ARG A 125      16.657 -29.170   7.740  1.00 11.02           N  \\nATOM    970  CA  ARG A 125      16.816 -28.343   8.953  1.00 11.19           C  \\nATOM    971  C   ARG A 125      16.901 -26.896   8.502  1.00 10.83           C  \\nATOM    972  O   ARG A 125      17.994 -26.317   8.404  1.00  9.31           O  \\nATOM    973  CB  ARG A 125      18.113 -28.762   9.609  1.00 11.56           C  \\nATOM    974  CG  ARG A 125      18.068 -30.214  10.018  1.00 14.82           C  \\nATOM    975  CD  ARG A 125      19.232 -30.566  10.788  1.00 17.30           C  \\nATOM    976  NE  ARG A 125      18.951 -31.901  11.151  1.00 22.23           N  \\nATOM    977  CZ  ARG A 125      19.706 -32.652  11.923  1.00 24.26           C  \\nATOM    978  NH1 ARG A 125      20.837 -32.148  12.432  1.00 24.36           N  \\nATOM    979  NH2 ARG A 125      19.320 -33.899  12.188  1.00 20.48           N  \\nATOM    980  N   TRP A 126      15.746 -26.337   8.198  1.00 11.50           N  \\nATOM    981  CA  TRP A 126      15.685 -25.119   7.433  1.00 11.31           C  \\nATOM    982  C   TRP A 126      16.275 -23.953   8.184  1.00 10.57           C  \\nATOM    983  O   TRP A 126      17.036 -23.165   7.611  1.00 10.01           O  \\nATOM    984  CB  TRP A 126      14.257 -24.802   7.082  1.00 10.69           C  \\nATOM    985  CG  TRP A 126      13.613 -25.871   6.252  1.00 10.97           C  \\nATOM    986  CD1 TRP A 126      12.358 -26.454   6.493  1.00 10.96           C  \\nATOM    987  CD2 TRP A 126      14.107 -26.481   5.039  1.00  8.18           C  \\nATOM    988  NE1 TRP A 126      12.061 -27.350   5.497  1.00  7.24           N  \\nATOM    989  CE2 TRP A 126      13.098 -27.377   4.586  1.00  7.76           C  \\nATOM    990  CE3 TRP A 126      15.290 -26.325   4.258  1.00  8.21           C  \\nATOM    991  CZ2 TRP A 126      13.245 -28.152   3.432  1.00  9.89           C  \\nATOM    992  CZ3 TRP A 126      15.435 -27.102   3.119  1.00 11.23           C  \\nATOM    993  CH2 TRP A 126      14.409 -28.011   2.710  1.00 12.37           C  \\nATOM    994  N   ASP A 127      15.907 -23.826   9.446  1.00 10.56           N  \\nATOM    995  CA  ASP A 127      16.403 -22.699  10.270  1.00 11.21           C  \\nATOM    996  C   ASP A 127      17.898 -22.777  10.490  1.00 12.06           C  \\nATOM    997  O   ASP A 127      18.585 -21.791  10.363  1.00 10.46           O  \\nATOM    998  CB  ASP A 127      15.672 -22.650  11.597  1.00 11.48           C  \\nATOM    999  CG  ASP A 127      14.328 -21.976  11.482  1.00 13.96           C  \\nATOM   1000  OD1 ASP A 127      13.703 -21.980  10.412  1.00 16.32           O  \\nATOM   1001  OD2 ASP A 127      13.868 -21.460  12.516  1.00 16.07           O  \\nATOM   1002  N   GLU A 128      18.406 -23.969  10.754  1.00 11.28           N  \\nATOM   1003  CA  GLU A 128      19.822 -24.183  10.852  1.00 10.84           C  \\nATOM   1004  C   GLU A 128      20.590 -23.895   9.551  1.00  9.95           C  \\nATOM   1005  O   GLU A 128      21.689 -23.278   9.605  1.00 10.56           O  \\nATOM   1006  CB  GLU A 128      20.059 -25.637  11.273  1.00 12.35           C  \\nATOM   1007  CG  GLU A 128      19.654 -25.892  12.743  1.00 14.29           C  \\nATOM   1008  CD  GLU A 128      19.518 -27.371  13.042  1.00 23.59           C  \\nATOM   1009  OE1 GLU A 128      20.571 -27.988  13.244  1.00 28.03           O  \\nATOM   1010  OE2 GLU A 128      18.393 -27.936  13.004  1.00 22.82           O  \\nATOM   1011  N   ALA A 129      20.059 -24.427   8.412  1.00  9.52           N  \\nATOM   1012  CA  ALA A 129      20.614 -24.150   7.121  1.00  8.08           C  \\nATOM   1013  C   ALA A 129      20.664 -22.660   6.960  1.00  9.66           C  \\nATOM   1014  O   ALA A 129      21.700 -22.135   6.548  1.00 10.47           O  \\nATOM   1015  CB  ALA A 129      19.752 -24.760   5.994  1.00  9.66           C  \\nATOM   1016  N   ALA A 130      19.540 -21.985   7.223  1.00  8.59           N  \\nATOM   1017  CA  ALA A 130      19.482 -20.501   7.031  1.00  9.27           C  \\nATOM   1018  C   ALA A 130      20.574 -19.751   7.877  1.00 11.55           C  \\nATOM   1019  O   ALA A 130      21.278 -18.835   7.360  1.00  9.06           O  \\nATOM   1020  CB  ALA A 130      18.069 -19.952   7.273  1.00 11.90           C  \\nATOM   1021  N   VAL A 131      20.722 -20.142   9.168  1.00  9.05           N  \\nATOM   1022  CA  VAL A 131      21.816 -19.616   9.977  1.00  9.62           C  \\nATOM   1023  C   VAL A 131      23.230 -19.906   9.329  1.00 10.40           C  \\nATOM   1024  O   VAL A 131      24.079 -18.998   9.194  1.00 11.43           O  \\nATOM   1025  CB  VAL A 131      21.717 -20.155  11.429  1.00  9.12           C  \\nATOM   1026  CG1 VAL A 131      23.013 -19.853  12.229  1.00  8.74           C  \\nATOM   1027  CG2 VAL A 131      20.483 -19.699  12.090  1.00  7.97           C  \\nATOM   1028  N   ASN A 132      23.468 -21.140   8.902  1.00  8.63           N  \\nATOM   1029  CA  ASN A 132      24.738 -21.475   8.298  1.00  9.35           C  \\nATOM   1030  C   ASN A 132      25.009 -20.676   6.989  1.00 10.31           C  \\nATOM   1031  O   ASN A 132      26.130 -20.183   6.752  1.00 11.19           O  \\nATOM   1032  CB  ASN A 132      24.859 -22.983   8.098  1.00 10.23           C  \\nATOM   1033  CG  ASN A 132      26.243 -23.402   7.634  1.00  9.00           C  \\nATOM   1034  OD1 ASN A 132      26.518 -23.466   6.454  1.00 10.71           O  \\nATOM   1035  ND2 ASN A 132      27.157 -23.579   8.585  1.00 12.84           N  \\nATOM   1036  N   LEU A 133      23.994 -20.536   6.159  1.00 10.56           N  \\nATOM   1037  CA  LEU A 133      24.183 -19.848   4.879  1.00 10.42           C  \\nATOM   1038  C   LEU A 133      24.692 -18.414   5.076  1.00 11.53           C  \\nATOM   1039  O   LEU A 133      25.361 -17.880   4.204  1.00  9.09           O  \\nATOM   1040  CB  LEU A 133      22.847 -19.880   4.082  1.00 12.47           C  \\nATOM   1041  CG  LEU A 133      22.511 -21.243   3.411  1.00 11.75           C  \\nATOM   1042  CD1 LEU A 133      21.076 -21.166   2.998  1.00 14.40           C  \\nATOM   1043  CD2 LEU A 133      23.509 -21.430   2.218  1.00 10.18           C  \\nATOM   1044  N   ALA A 134      24.244 -17.761   6.164  1.00  9.86           N  \\nATOM   1045  CA  ALA A 134      24.515 -16.342   6.376  1.00 11.13           C  \\nATOM   1046  C   ALA A 134      25.937 -16.135   6.860  1.00 10.53           C  \\nATOM   1047  O   ALA A 134      26.468 -15.019   6.763  1.00 13.61           O  \\nATOM   1048  CB  ALA A 134      23.540 -15.727   7.359  1.00  6.79           C  \\nATOM   1049  N   LYS A 135      26.521 -17.176   7.420  1.00 10.88           N  \\nATOM   1050  CA  LYS A 135      27.938 -17.210   7.824  1.00 12.29           C  \\nATOM   1051  C   LYS A 135      28.867 -17.317   6.622  1.00 10.63           C  \\nATOM   1052  O   LYS A 135      29.602 -18.282   6.499  1.00 11.00           O  \\nATOM   1053  CB  LYS A 135      28.212 -18.324   8.874  1.00 10.79           C  \\nATOM   1054  CG  LYS A 135      27.435 -18.174  10.139  1.00 12.16           C  \\nATOM   1055  CD  LYS A 135      27.536 -19.419  11.051  1.00 14.53           C  \\nATOM   1056  CE  LYS A 135      27.007 -19.193  12.427  0.50 14.32           C  \\nATOM   1057  NZ  LYS A 135      26.869 -20.512  13.183  0.50  7.91           N  \\nATOM   1058  N   SER A 136      28.856 -16.325   5.707  1.00  9.25           N  \\nATOM   1059  CA  SER A 136      29.565 -16.487   4.458  1.00  7.74           C  \\nATOM   1060  C   SER A 136      29.969 -15.082   3.896  1.00  8.32           C  \\nATOM   1061  O   SER A 136      29.318 -14.072   4.224  1.00  5.92           O  \\nATOM   1062  CB  SER A 136      28.638 -17.216   3.471  1.00  6.70           C  \\nATOM   1063  OG  SER A 136      27.458 -16.399   3.154  1.00  7.37           O  \\nATOM   1064  N   ARG A 137      31.044 -15.062   3.103  1.00  9.64           N  \\nATOM   1065  CA  ARG A 137      31.454 -13.895   2.335  1.00  9.18           C  \\nATOM   1066  C   ARG A 137      30.303 -13.518   1.444  1.00  9.66           C  \\nATOM   1067  O   ARG A 137      29.933 -12.374   1.386  1.00 10.57           O  \\nATOM   1068  CB  ARG A 137      32.711 -14.249   1.451  1.00  9.58           C  \\nATOM   1069  CG  ARG A 137      32.909 -13.118   0.439  1.00 13.45           C  \\nATOM   1070  CD  ARG A 137      34.044 -13.289  -0.494  1.00 19.25           C  \\nATOM   1071  NE  ARG A 137      34.397 -11.993  -1.080  1.00 21.02           N  \\nATOM   1072  CZ  ARG A 137      33.786 -11.405  -2.111  1.00 22.67           C  \\nATOM   1073  NH1 ARG A 137      32.706 -11.928  -2.706  1.00 20.47           N  \\nATOM   1074  NH2 ARG A 137      34.260 -10.228  -2.523  1.00 19.29           N  \\nATOM   1075  N   TRP A 138      29.623 -14.521   0.885  1.00 11.03           N  \\nATOM   1076  CA  TRP A 138      28.437 -14.316   0.098  1.00 11.24           C  \\nATOM   1077  C   TRP A 138      27.454 -13.347   0.764  1.00 11.55           C  \\nATOM   1078  O   TRP A 138      27.027 -12.314   0.188  1.00  9.89           O  \\nATOM   1079  CB  TRP A 138      27.744 -15.665  -0.146  1.00 10.91           C  \\nATOM   1080  CG  TRP A 138      26.395 -15.538  -0.873  1.00 12.27           C  \\nATOM   1081  CD1 TRP A 138      26.133 -14.884  -2.074  1.00 12.34           C  \\nATOM   1082  CD2 TRP A 138      25.152 -16.132  -0.462  1.00 12.34           C  \\nATOM   1083  NE1 TRP A 138      24.792 -15.025  -2.412  1.00 13.37           N  \\nATOM   1084  CE2 TRP A 138      24.172 -15.788  -1.447  1.00 11.66           C  \\nATOM   1085  CE3 TRP A 138      24.760 -16.870   0.682  1.00 12.11           C  \\nATOM   1086  CZ2 TRP A 138      22.839 -16.176  -1.361  1.00  8.21           C  \\nATOM   1087  CZ3 TRP A 138      23.431 -17.296   0.779  1.00 10.35           C  \\nATOM   1088  CH2 TRP A 138      22.456 -16.924  -0.247  1.00 14.47           C  \\nATOM   1089  N   TYR A 139      27.012 -13.737   1.949  1.00 11.34           N  \\nATOM   1090  CA  TYR A 139      26.026 -12.943   2.704  1.00 11.23           C  \\nATOM   1091  C   TYR A 139      26.575 -11.534   3.036  1.00  9.47           C  \\nATOM   1092  O   TYR A 139      25.897 -10.529   2.916  1.00 10.38           O  \\nATOM   1093  CB  TYR A 139      25.734 -13.665   4.018  1.00 12.01           C  \\nATOM   1094  CG  TYR A 139      24.693 -12.895   4.795  1.00 12.94           C  \\nATOM   1095  CD1 TYR A 139      23.352 -13.084   4.521  1.00 12.59           C  \\nATOM   1096  CD2 TYR A 139      25.067 -11.908   5.717  1.00 19.30           C  \\nATOM   1097  CE1 TYR A 139      22.350 -12.339   5.171  1.00 16.64           C  \\nATOM   1098  CE2 TYR A 139      24.090 -11.131   6.385  1.00 21.33           C  \\nATOM   1099  CZ  TYR A 139      22.735 -11.330   6.092  1.00 22.30           C  \\nATOM   1100  OH  TYR A 139      21.753 -10.556   6.754  1.00 24.45           O  \\nATOM   1101  N   ASN A 140      27.821 -11.472   3.470  1.00 10.13           N  \\nATOM   1102  CA  ASN A 140      28.380 -10.204   3.913  1.00  9.96           C  \\nATOM   1103  C   ASN A 140      28.594  -9.261   2.758  1.00  9.63           C  \\nATOM   1104  O   ASN A 140      28.414  -8.085   2.964  1.00 11.53           O  \\nATOM   1105  CB  ASN A 140      29.645 -10.332   4.669  1.00 11.45           C  \\nATOM   1106  CG  ASN A 140      29.432 -10.943   5.998  1.00 16.67           C  \\nATOM   1107  OD1 ASN A 140      29.744 -12.139   6.227  1.00 16.40           O  \\nATOM   1108  ND2 ASN A 140      28.909 -10.137   6.916  1.00 18.71           N  \\nATOM   1109  N   GLN A 141      28.875  -9.770   1.578  1.00  8.18           N  \\nATOM   1110  CA  GLN A 141      29.117  -8.909   0.408  1.00  9.37           C  \\nATOM   1111  C   GLN A 141      27.830  -8.437  -0.224  1.00  9.01           C  \\nATOM   1112  O   GLN A 141      27.732  -7.271  -0.722  1.00 10.59           O  \\nATOM   1113  CB  GLN A 141      30.005  -9.606  -0.625  1.00  9.35           C  \\nATOM   1114  CG  GLN A 141      31.492  -9.894  -0.173  1.00 13.96           C  \\nATOM   1115  CD  GLN A 141      32.188  -8.695   0.540  1.00 14.24           C  \\nATOM   1116  OE1 GLN A 141      32.719  -8.840   1.666  1.00 12.50           O  \\nATOM   1117  NE2 GLN A 141      32.211  -7.514  -0.159  1.00 14.10           N  \\nATOM   1118  N   THR A 142      26.849  -9.334  -0.296  1.00  7.29           N  \\nATOM   1119  CA  THR A 142      25.546  -8.991  -0.865  1.00  8.08           C  \\nATOM   1120  C   THR A 142      24.452  -9.380   0.129  1.00  8.74           C  \\nATOM   1121  O   THR A 142      23.703 -10.369  -0.122  1.00  8.55           O  \\nATOM   1122  CB  THR A 142      25.294  -9.708  -2.292  1.00  8.81           C  \\nATOM   1123  OG1 THR A 142      25.507 -11.144  -2.185  1.00 10.19           O  \\nATOM   1124  CG2 THR A 142      26.232  -9.107  -3.351  1.00  8.35           C  \\nATOM   1125  N   PRO A 143      24.377  -8.678   1.270  1.00 10.31           N  \\nATOM   1126  CA  PRO A 143      23.436  -9.139   2.315  1.00 10.69           C  \\nATOM   1127  C   PRO A 143      21.985  -9.007   1.926  1.00 11.77           C  \\nATOM   1128  O   PRO A 143      21.181  -9.846   2.330  1.00 13.01           O  \\nATOM   1129  CB  PRO A 143      23.788  -8.212   3.547  1.00 10.60           C  \\nATOM   1130  CG  PRO A 143      24.424  -7.016   2.957  1.00 12.90           C  \\nATOM   1131  CD  PRO A 143      25.164  -7.483   1.737  1.00  8.51           C  \\nATOM   1132  N   ASP A 144      21.612  -7.977   1.170  1.00  9.27           N  \\nATOM   1133  CA  ASP A 144      20.178  -7.796   0.924  1.00 10.93           C  \\nATOM   1134  C   ASP A 144      19.654  -8.950   0.028  1.00 10.02           C  \\nATOM   1135  O   ASP A 144      18.618  -9.573   0.307  1.00  6.13           O  \\nATOM   1136  CB  ASP A 144      19.906  -6.399   0.349  1.00 10.61           C  \\nATOM   1137  CG  ASP A 144      20.068  -5.269   1.463  1.00 12.99           C  \\nATOM   1138  OD1 ASP A 144      20.160  -5.566   2.651  1.00 19.65           O  \\nATOM   1139  OD2 ASP A 144      20.125  -4.131   1.116  1.00 20.27           O  \\nATOM   1140  N   ARG A 145      20.455  -9.241  -0.987  1.00  8.94           N  \\nATOM   1141  CA  ARG A 145      20.138 -10.336  -1.897  1.00 10.43           C  \\nATOM   1142  C   ARG A 145      20.211 -11.686  -1.194  1.00  9.22           C  \\nATOM   1143  O   ARG A 145      19.344 -12.520  -1.358  1.00  9.97           O  \\nATOM   1144  CB  ARG A 145      21.075 -10.344  -3.101  1.00 11.14           C  \\nATOM   1145  CG  ARG A 145      20.485 -11.315  -4.193  1.00 11.36           C  \\nATOM   1146  CD  ARG A 145      21.577 -11.846  -4.946  1.00 16.41           C  \\nATOM   1147  NE  ARG A 145      21.239 -12.817  -5.951  1.00 13.85           N  \\nATOM   1148  CZ  ARG A 145      21.814 -12.769  -7.147  1.00 14.83           C  \\nATOM   1149  NH1 ARG A 145      22.651 -11.764  -7.404  1.00 12.25           N  \\nATOM   1150  NH2 ARG A 145      21.533 -13.680  -8.075  1.00 10.86           N  \\nATOM   1151  N   ALA A 146      21.291 -11.919  -0.470  1.00 10.54           N  \\nATOM   1152  CA  ALA A 146      21.522 -13.175   0.219  1.00  8.75           C  \\nATOM   1153  C   ALA A 146      20.360 -13.395   1.244  1.00  9.60           C  \\nATOM   1154  O   ALA A 146      19.936 -14.521   1.446  1.00  9.60           O  \\nATOM   1155  CB  ALA A 146      22.907 -13.178   0.919  1.00 10.90           C  \\nATOM   1156  N   LYS A 147      19.917 -12.329   1.930  1.00  9.35           N  \\nATOM   1157  CA ALYS A 147      18.779 -12.380   2.883  0.50  9.70           C  \\nATOM   1158  C   LYS A 147      17.519 -12.911   2.181  1.00  9.60           C  \\nATOM   1159  O   LYS A 147      16.809 -13.793   2.698  1.00  9.12           O  \\nATOM   1160  CB ALYS A 147      18.498 -10.981   3.453  0.50 10.21           C  \\nATOM   1161  CG ALYS A 147      19.370 -10.521   4.638  0.50 11.22           C  \\nATOM   1162  CD ALYS A 147      19.328  -8.952   4.874  0.50  8.64           C  \\nATOM   1163  CE ALYS A 147      20.131  -8.574   6.141  0.50 13.87           C  \\nATOM   1164  NZ ALYS A 147      19.929  -7.106   6.677  0.50 15.97           N  \\nATOM   1165  N   ARG A 148      17.234 -12.360   0.991  1.00  8.37           N  \\nATOM   1166  CA  ARG A 148      16.067 -12.838   0.171  1.00  8.61           C  \\nATOM   1167  C   ARG A 148      16.233 -14.314  -0.189  1.00  8.22           C  \\nATOM   1168  O   ARG A 148      15.310 -15.053  -0.090  1.00  7.25           O  \\nATOM   1169  CB  ARG A 148      15.944 -12.055  -1.149  1.00  9.76           C  \\nATOM   1170  CG  ARG A 148      15.473 -10.615  -0.941  1.00  9.47           C  \\nATOM   1171  CD  ARG A 148      14.955 -10.035  -2.231  1.00 11.55           C  \\nATOM   1172  NE  ARG A 148      16.083  -9.749  -3.139  1.00  9.12           N  \\nATOM   1173  CZ  ARG A 148      16.892  -8.676  -3.062  1.00 12.62           C  \\nATOM   1174  NH1 ARG A 148      16.699  -7.768  -2.117  1.00 11.46           N  \\nATOM   1175  NH2 ARG A 148      17.889  -8.526  -3.954  1.00  7.84           N  \\nATOM   1176  N   VAL A 149      17.429 -14.750  -0.595  1.00  9.31           N  \\nATOM   1177  CA  VAL A 149      17.599 -16.132  -1.123  1.00  7.43           C  \\nATOM   1178  C   VAL A 149      17.571 -17.102   0.084  1.00  9.63           C  \\nATOM   1179  O   VAL A 149      16.940 -18.198   0.029  1.00 10.27           O  \\nATOM   1180  CB  VAL A 149      18.979 -16.230  -1.786  1.00  8.60           C  \\nATOM   1181  CG1 VAL A 149      19.371 -17.719  -2.042  1.00  8.06           C  \\nATOM   1182  CG2 VAL A 149      18.972 -15.349  -3.090  1.00  7.73           C  \\nATOM   1183  N   ILE A 150      18.222 -16.666   1.177  1.00  9.83           N  \\nATOM   1184  CA  ILE A 150      18.142 -17.430   2.438  1.00 11.08           C  \\nATOM   1185  C   ILE A 150      16.717 -17.579   2.946  1.00 11.53           C  \\nATOM   1186  O   ILE A 150      16.341 -18.670   3.374  1.00 11.02           O  \\nATOM   1187  CB  ILE A 150      19.001 -16.834   3.572  1.00  9.45           C  \\nATOM   1188  CG1 ILE A 150      20.472 -17.088   3.243  1.00  9.95           C  \\nATOM   1189  CG2 ILE A 150      18.662 -17.599   4.911  1.00  7.97           C  \\nATOM   1190  CD1 ILE A 150      21.574 -16.163   4.027  1.00 11.27           C  \\nATOM   1191  N   THR A 151      15.922 -16.493   2.904  1.00 11.17           N  \\nATOM   1192  CA  THR A 151      14.541 -16.602   3.335  1.00 12.11           C  \\nATOM   1193  C   THR A 151      13.775 -17.631   2.473  1.00 12.25           C  \\nATOM   1194  O   THR A 151      12.927 -18.371   3.012  1.00 12.54           O  \\nATOM   1195  CB  THR A 151      13.820 -15.220   3.345  1.00 10.72           C  \\nATOM   1196  OG1 THR A 151      14.267 -14.471   4.478  1.00 13.62           O  \\nATOM   1197  CG2 THR A 151      12.318 -15.372   3.444  1.00 12.40           C  \\nATOM   1198  N   THR A 152      14.103 -17.685   1.177  1.00 11.02           N  \\nATOM   1199  CA  THR A 152      13.506 -18.620   0.217  1.00 11.59           C  \\nATOM   1200  C   THR A 152      13.851 -20.065   0.626  1.00 11.09           C  \\nATOM   1201  O   THR A 152      12.947 -20.915   0.681  1.00 11.15           O  \\nATOM   1202  CB  THR A 152      13.853 -18.286  -1.255  1.00  9.65           C  \\nATOM   1203  OG1 THR A 152      13.605 -16.884  -1.448  1.00 14.45           O  \\nATOM   1204  CG2 THR A 152      12.966 -19.074  -2.258  1.00 12.97           C  \\nATOM   1205  N   PHE A 153      15.141 -20.340   0.843  1.00 11.82           N  \\nATOM   1206  CA  PHE A 153      15.577 -21.606   1.457  1.00 11.41           C  \\nATOM   1207  C   PHE A 153      14.940 -21.933   2.811  1.00 12.38           C  \\nATOM   1208  O   PHE A 153      14.699 -23.136   3.120  1.00 15.74           O  \\nATOM   1209  CB  PHE A 153      17.093 -21.612   1.686  1.00  9.49           C  \\nATOM   1210  CG  PHE A 153      17.896 -21.945   0.481  1.00 10.80           C  \\nATOM   1211  CD1 PHE A 153      18.895 -21.077   0.047  1.00 10.33           C  \\nATOM   1212  CD2 PHE A 153      17.724 -23.180  -0.204  1.00 12.15           C  \\nATOM   1213  CE1 PHE A 153      19.701 -21.401  -1.129  1.00 12.42           C  \\nATOM   1214  CE2 PHE A 153      18.488 -23.533  -1.280  1.00 10.32           C  \\nATOM   1215  CZ  PHE A 153      19.528 -22.634  -1.772  1.00 11.42           C  \\nATOM   1216  N   ARG A 154      14.761 -20.930   3.673  1.00 12.17           N  \\nATOM   1217  CA AARG A 154      14.271 -21.230   5.013  0.50 12.64           C  \\nATOM   1218  C   ARG A 154      12.793 -21.588   4.990  1.00 11.62           C  \\nATOM   1219  O   ARG A 154      12.371 -22.461   5.725  1.00 11.54           O  \\nATOM   1220  CB AARG A 154      14.542 -20.110   6.040  0.50 12.03           C  \\nATOM   1221  CG AARG A 154      14.117 -20.513   7.498  0.50 12.79           C  \\nATOM   1222  CD AARG A 154      14.231 -19.378   8.534  0.50 13.25           C  \\nATOM   1223  NE AARG A 154      13.509 -18.163   8.171  0.50 14.10           N  \\nATOM   1224  CZ AARG A 154      12.194 -17.951   8.305  0.50 14.90           C  \\nATOM   1225  NH1AARG A 154      11.388 -18.878   8.810  0.50 15.25           N  \\nATOM   1226  NH2AARG A 154      11.679 -16.787   7.913  0.50 13.29           N  \\nATOM   1227  N   THR A 155      12.024 -20.943   4.130  1.00 13.12           N  \\nATOM   1228  CA  THR A 155      10.549 -21.026   4.177  1.00 13.94           C  \\nATOM   1229  C   THR A 155       9.908 -21.788   3.051  1.00 14.32           C  \\nATOM   1230  O   THR A 155       8.759 -22.167   3.193  1.00 14.45           O  \\nATOM   1231  CB  THR A 155       9.926 -19.631   4.155  1.00 13.49           C  \\nATOM   1232  OG1 THR A 155      10.251 -19.012   2.897  1.00 15.46           O  \\nATOM   1233  CG2 THR A 155      10.442 -18.703   5.338  1.00 13.53           C  \\nATOM   1234  N   GLY A 156      10.633 -21.942   1.928  1.00 13.63           N  \\nATOM   1235  CA  GLY A 156      10.174 -22.488   0.706  1.00 11.64           C  \\nATOM   1236  C   GLY A 156       8.986 -21.701   0.179  1.00 11.69           C  \\nATOM   1237  O   GLY A 156       8.126 -22.272  -0.423  1.00 12.57           O  \\nATOM   1238  N   THR A 157       8.932 -20.389   0.508  1.00 10.85           N  \\nATOM   1239  CA  THR A 157       7.887 -19.474   0.069  1.00 11.02           C  \\nATOM   1240  C   THR A 157       8.547 -18.365  -0.713  1.00 10.31           C  \\nATOM   1241  O   THR A 157       9.768 -18.252  -0.731  1.00 10.58           O  \\nATOM   1242  CB  THR A 157       7.146 -18.727   1.212  1.00 11.05           C  \\nATOM   1243  OG1 THR A 157       8.033 -17.802   1.905  1.00 15.11           O  \\nATOM   1244  CG2 THR A 157       6.431 -19.683   2.169  1.00 11.04           C  \\nATOM   1245  N   TRP A 158       7.732 -17.524  -1.327  1.00 10.88           N  \\nATOM   1246  CA  TRP A 158       8.245 -16.440  -2.129  1.00 11.92           C  \\nATOM   1247  C   TRP A 158       8.123 -15.117  -1.329  1.00 11.55           C  \\nATOM   1248  O   TRP A 158       8.063 -14.022  -1.898  1.00 13.28           O  \\nATOM   1249  CB  TRP A 158       7.465 -16.359  -3.418  1.00 11.93           C  \\nATOM   1250  CG  TRP A 158       7.822 -17.470  -4.450  1.00 12.74           C  \\nATOM   1251  CD1 TRP A 158       6.994 -18.416  -4.898  1.00 13.77           C  \\nATOM   1252  CD2 TRP A 158       9.073 -17.655  -5.122  1.00 15.01           C  \\nATOM   1253  NE1 TRP A 158       7.622 -19.198  -5.820  1.00 14.08           N  \\nATOM   1254  CE2 TRP A 158       8.911 -18.751  -5.989  1.00 11.00           C  \\nATOM   1255  CE3 TRP A 158      10.330 -16.968  -5.102  1.00  8.15           C  \\nATOM   1256  CZ2 TRP A 158       9.950 -19.223  -6.823  1.00  9.81           C  \\nATOM   1257  CZ3 TRP A 158      11.341 -17.430  -5.941  1.00 10.77           C  \\nATOM   1258  CH2 TRP A 158      11.147 -18.560  -6.783  1.00 12.63           C  \\nATOM   1259  N   ASP A 159       8.038 -15.239  -0.012  1.00 11.99           N  \\nATOM   1260  CA  ASP A 159       7.758 -14.091   0.811  1.00 13.38           C  \\nATOM   1261  C   ASP A 159       8.791 -12.976   0.590  1.00 13.72           C  \\nATOM   1262  O   ASP A 159       8.420 -11.809   0.534  1.00 12.07           O  \\nATOM   1263  CB  ASP A 159       7.776 -14.531   2.270  1.00 14.76           C  \\nATOM   1264  CG  ASP A 159       6.512 -15.215   2.649  1.00 17.82           C  \\nATOM   1265  OD1 ASP A 159       5.653 -15.352   1.752  1.00 17.18           O  \\nATOM   1266  OD2 ASP A 159       6.407 -15.595   3.819  1.00 25.15           O  \\nATOM   1267  N   ALA A 160      10.058 -13.327   0.343  1.00 11.99           N  \\nATOM   1268  CA  ALA A 160      11.091 -12.278   0.261  1.00 11.80           C  \\nATOM   1269  C   ALA A 160      11.050 -11.555  -1.056  1.00 12.16           C  \\nATOM   1270  O   ALA A 160      11.750 -10.588  -1.236  1.00 11.65           O  \\nATOM   1271  CB  ALA A 160      12.506 -12.910   0.484  1.00 10.51           C  \\nATOM   1272  N   TYR A 161      10.216 -12.014  -2.004  1.00 14.08           N  \\nATOM   1273  CA  TYR A 161      10.175 -11.432  -3.346  1.00 14.80           C  \\nATOM   1274  C   TYR A 161       8.774 -10.867  -3.685  1.00 18.27           C  \\nATOM   1275  O   TYR A 161       8.596 -10.195  -4.714  1.00 18.91           O  \\nATOM   1276  CB  TYR A 161      10.570 -12.489  -4.414  1.00 14.76           C  \\nATOM   1277  CG  TYR A 161      12.018 -12.852  -4.385  1.00 12.49           C  \\nATOM   1278  CD1 TYR A 161      12.490 -13.904  -3.579  1.00 11.83           C  \\nATOM   1279  CD2 TYR A 161      12.928 -12.124  -5.112  1.00 10.82           C  \\nATOM   1280  CE1 TYR A 161      13.846 -14.213  -3.515  1.00 10.92           C  \\nATOM   1281  CE2 TYR A 161      14.310 -12.395  -5.068  1.00  8.48           C  \\nATOM   1282  CZ  TYR A 161      14.754 -13.457  -4.262  1.00 12.20           C  \\nATOM   1283  OH  TYR A 161      16.096 -13.759  -4.188  1.00 12.18           O  \\nATOM   1284  N   LYS A 162       7.786 -11.082  -2.826  0.50 18.90           N  \\nATOM   1285  CA  LYS A 162       6.443 -11.100  -3.371  0.50 19.75           C  \\nATOM   1286  C   LYS A 162       5.807  -9.773  -3.856  0.50 20.49           C  \\nATOM   1287  O   LYS A 162       5.003  -9.833  -4.775  0.50 20.39           O  \\nATOM   1288  CB  LYS A 162       5.494 -12.080  -2.646  0.50 19.69           C  \\nATOM   1289  CG  LYS A 162       5.382 -11.924  -1.136  0.50 20.78           C  \\nATOM   1290  CD  LYS A 162       4.505 -13.051  -0.566  0.50 19.81           C  \\nATOM   1291  CE  LYS A 162       3.705 -12.529   0.595  0.50 18.08           C  \\nATOM   1292  NZ  LYS A 162       2.689 -13.534   1.027  0.50 21.58           N  \\nATOM   1293  N   ASN A 163       6.166  -8.586  -3.355  0.50 21.64           N  \\nATOM   1294  CA  ASN A 163       6.996  -8.322  -2.203  0.50 23.15           C  \\nATOM   1295  C   ASN A 163       6.211  -7.397  -1.262  0.50 24.32           C  \\nATOM   1296  O   ASN A 163       6.241  -6.164  -1.395  0.50 24.66           O  \\nATOM   1297  CB  ASN A 163       8.345  -7.659  -2.590  0.50 24.09           C  \\nATOM   1298  CG  ASN A 163       8.264  -6.773  -3.876  0.50 24.52           C  \\nATOM   1299  OD1 ASN A 163       7.180  -6.439  -4.355  0.50 26.98           O  \\nATOM   1300  ND2 ASN A 163       9.430  -6.410  -4.423  0.50 24.01           N  \\nHETATM 1301  P   PO4 A 165      15.430 -26.507  12.040  0.70 13.01           P  \\nHETATM 1302  O1  PO4 A 165      16.899 -26.359  11.761  0.70  8.42           O  \\nHETATM 1303  O2  PO4 A 165      14.565 -25.571  11.281  0.70 12.47           O  \\nHETATM 1304  O3  PO4 A 165      15.071 -28.010  11.811  0.70 11.58           O  \\nHETATM 1305  O4  PO4 A 165      15.042 -26.318  13.543  0.70 11.36           O  \\nHETATM 1306  P   PO4 A 166      21.741   0.620 -18.648  0.50 20.49           P  \\nHETATM 1307  O1  PO4 A 166      23.073  -0.065 -18.917  0.50 18.04           O  \\nHETATM 1308  O2  PO4 A 166      21.958   2.010 -19.153  0.50 19.25           O  \\nHETATM 1309  O3  PO4 A 166      20.616  -0.014 -19.484  0.50 14.22           O  \\nHETATM 1310  O4  PO4 A 166      21.425   0.662 -17.127  0.50 15.77           O  \\nHETATM 1311  C1  BME A 168      14.857 -23.292 -16.062  0.50 25.86           C  \\nHETATM 1312  C2  BME A 168      13.406 -23.762 -15.870  0.50 26.27           C  \\nHETATM 1313  O1  BME A 168      15.611 -24.210 -16.904  0.50 24.55           O  \\nHETATM 1314  S2  BME A 168      13.082 -24.498 -14.218  0.50 29.32           S  \\nCONECT    1    2\\nCONECT    2    3    5\\nCONECT    3    4    4    9\\nCONECT    5    6\\nCONECT    6    7\\nCONECT    7    8\\nCONECT    9   10\\nCONECT   10   11   13\\nCONECT   11   12   12   17\\nCONECT   13   14\\nCONECT   14   15   15   16\\nCONECT   17   18\\nCONECT   18   19   21\\nCONECT   19   20   20   25\\nCONECT   21   22   23\\nCONECT   22   24\\nCONECT   25   26\\nCONECT   26   27   29\\nCONECT   27   28   28   36\\nCONECT   29   30\\nCONECT   30   31   31   32\\nCONECT   31   33\\nCONECT   32   34   34\\nCONECT   33   35   35\\nCONECT   34   35\\nCONECT   36   37\\nCONECT   37   38   40\\nCONECT   38   39   39   45\\nCONECT   40   41\\nCONECT   41   42\\nCONECT   42   43   43   44\\nCONECT   45   46\\nCONECT   46   47   49\\nCONECT   47   48   48   53\\nCONECT   49   50\\nCONECT   50   51\\nCONECT   51   52\\nCONECT   53   54\\nCONECT   54   55   57\\nCONECT   55   56   56   61\\nCONECT   57   58\\nCONECT   58   59   60\\nCONECT   61   62\\nCONECT   62   63   65\\nCONECT   63   64   64   72\\nCONECT   65   66\\nCONECT   66   67\\nCONECT   67   68\\nCONECT   68   69\\nCONECT   69   70   71   71\\nCONECT   72   73\\nCONECT   73   74   76\\nCONECT   74   75   75   80\\nCONECT   76   77   78\\nCONECT   77   79\\nCONECT   80   81\\nCONECT   81   82   84\\nCONECT   82   83   83   88\\nCONECT   84   85\\nCONECT   85   86   86   87\\nCONECT   88   89\\nCONECT   89   90   92\\nCONECT   90   91   91   97\\nCONECT   92   93\\nCONECT   93   94\\nCONECT   94   95   95   96\\nCONECT   97   98\\nCONECT   98   99\\nCONECT   99  100  100  101\\nCONECT  101  102\\nCONECT  102  103  105\\nCONECT  103  104  104  109\\nCONECT  105  106\\nCONECT  106  107  108\\nCONECT  109  110\\nCONECT  110  111  113\\nCONECT  111  112  112  120\\nCONECT  113  114\\nCONECT  114  115\\nCONECT  115  116\\nCONECT  116  117\\nCONECT  117  118  119  119\\nCONECT  120  121\\nCONECT  121  122  124\\nCONECT  122  123  123  128\\nCONECT  124  125\\nCONECT  125  126  127\\nCONECT  128  129\\nCONECT  129  130  132\\nCONECT  130  131  131  137\\nCONECT  132  133\\nCONECT  133  134\\nCONECT  134  135\\nCONECT  135  136\\nCONECT  137  138\\nCONECT  138  139  141\\nCONECT  139  140  140  145\\nCONECT  141  142  143\\nCONECT  142  144\\nCONECT  145  146\\nCONECT  146  147  149\\nCONECT  147  148  148  157\\nCONECT  149  150\\nCONECT  150  151  151  152\\nCONECT  151  153\\nCONECT  152  154  154\\nCONECT  153  155  155\\nCONECT  154  155\\nCONECT  155  156\\nCONECT  157  158\\nCONECT  158  159  161\\nCONECT  159  160  160  166\\nCONECT  161  162\\nCONECT  162  163\\nCONECT  163  164\\nCONECT  164  165\\nCONECT  166  167\\nCONECT  167  168  170\\nCONECT  168  169  169  174\\nCONECT  170  171\\nCONECT  171  172  172  173\\nCONECT  174  175\\nCONECT  175  176  178\\nCONECT  176  177  177  181\\nCONECT  178  179  180\\nCONECT  181  182\\nCONECT  182  183  185\\nCONECT  183  184  184  190\\nCONECT  185  186\\nCONECT  186  187\\nCONECT  187  188  188  189\\nCONECT  190  191\\nCONECT  191  192\\nCONECT  192  193  193  194\\nCONECT  194  195\\nCONECT  195  196  198\\nCONECT  196  197  197  206\\nCONECT  198  199\\nCONECT  199  200  200  201\\nCONECT  200  202\\nCONECT  201  203  203\\nCONECT  202  204  204\\nCONECT  203  204\\nCONECT  204  205\\nCONECT  206  207\\nCONECT  207  208  210\\nCONECT  208  209  209  218\\nCONECT  210  211\\nCONECT  211  212  212  213\\nCONECT  212  214\\nCONECT  213  215  215\\nCONECT  214  216  216\\nCONECT  215  216\\nCONECT  216  217\\nCONECT  218  219\\nCONECT  219  220  222\\nCONECT  220  221  221  225\\nCONECT  222  223  224\\nCONECT  225  226\\nCONECT  226  227  229\\nCONECT  227  228  228  233\\nCONECT  229  230  231\\nCONECT  230  232\\nCONECT  233  234\\nCONECT  234  235\\nCONECT  235  236  236  237\\nCONECT  237  238\\nCONECT  238  239  241\\nCONECT  239  240  240  245\\nCONECT  241  242  243\\nCONECT  242  244\\nCONECT  245  246\\nCONECT  246  247\\nCONECT  247  248  248  249\\nCONECT  249  250\\nCONECT  250  251  253\\nCONECT  251  252  252  259\\nCONECT  253  254\\nCONECT  254  255  256  256\\nCONECT  255  257  257\\nCONECT  256  258\\nCONECT  257  258\\nCONECT  259  260\\nCONECT  260  261  263\\nCONECT  261  262  262  267\\nCONECT  263  264\\nCONECT  264  265  266\\nCONECT  267  268\\nCONECT  268  269  271\\nCONECT  269  270  270  275\\nCONECT  271  272\\nCONECT  272  273  274\\nCONECT  275  276\\nCONECT  276  277  279\\nCONECT  277  278  278  282\\nCONECT  279  280  281\\nCONECT  282  283\\nCONECT  283  284  286\\nCONECT  284  285  285  291\\nCONECT  286  287\\nCONECT  287  288\\nCONECT  288  289\\nCONECT  289  290\\nCONECT  291  292\\nCONECT  292  293  295\\nCONECT  293  294  294  297\\nCONECT  295  296\\nCONECT  297  298  303\\nCONECT  298  299  301\\nCONECT  299  300  300  304\\nCONECT  301  302\\nCONECT  302  303\\nCONECT  304  305\\nCONECT  305  306  308\\nCONECT  306  307  307  312\\nCONECT  308  309\\nCONECT  309  310  310  311\\nCONECT  312  313\\nCONECT  313  314  316\\nCONECT  314  315  315  320\\nCONECT  316  317\\nCONECT  317  318  319\\nCONECT  320  321\\nCONECT  321  322  324\\nCONECT  322  323  323  328\\nCONECT  324  325\\nCONECT  325  326  326  327\\nCONECT  328  329\\nCONECT  329  330  332\\nCONECT  330  331  331  333\\nCONECT  333  334\\nCONECT  334  335  337\\nCONECT  335  336  336  338\\nCONECT  338  339\\nCONECT  339  340  342\\nCONECT  340  341  341  347\\nCONECT  342  343\\nCONECT  343  344\\nCONECT  344  345\\nCONECT  345  346\\nCONECT  347  348\\nCONECT  348  349  351\\nCONECT  349  350  350  353\\nCONECT  351  352\\nCONECT  353  354\\nCONECT  354  355  357\\nCONECT  355  356  356  362\\nCONECT  357  358\\nCONECT  358  359\\nCONECT  359  360  360  361\\nCONECT  362  363\\nCONECT  363  364  366\\nCONECT  364  365  365  370\\nCONECT  366  367\\nCONECT  367  368  369\\nCONECT  370  371\\nCONECT  371  372  374\\nCONECT  372  373  373  378\\nCONECT  374  375\\nCONECT  375  376  376  377\\nCONECT  378  379\\nCONECT  379  380  382\\nCONECT  380  381  381  387\\nCONECT  382  383\\nCONECT  383  384\\nCONECT  384  385\\nCONECT  385  386\\nCONECT  387  388\\nCONECT  388  389  391\\nCONECT  389  390  390  392\\nCONECT  392  393\\nCONECT  393  394  396\\nCONECT  394  395  395  400\\nCONECT  396  397  398\\nCONECT  397  399\\nCONECT  400  401\\nCONECT  401  402\\nCONECT  402  403  403  404\\nCONECT  404  405\\nCONECT  405  406  408\\nCONECT  406  407  407  415\\nCONECT  408  409\\nCONECT  409  410\\nCONECT  410  411\\nCONECT  411  412\\nCONECT  412  413  414  414\\nCONECT  415  416\\nCONECT  416  417  419\\nCONECT  417  418  418  423\\nCONECT  419  420\\nCONECT  420  421  421  422\\nCONECT  423  424\\nCONECT  424  425  427\\nCONECT  425  426  426  429\\nCONECT  427  428\\nCONECT  429  430\\nCONECT  430  431  433\\nCONECT  431  432  432  437\\nCONECT  433  434\\nCONECT  434  435  435  436\\nCONECT  437  438\\nCONECT  438  439\\nCONECT  439  440  440  441\\nCONECT  441  442\\nCONECT  442  443  445\\nCONECT  443  444  444  448\\nCONECT  445  446  447\\nCONECT  448  449\\nCONECT  449  450  452\\nCONECT  450  451  451  456\\nCONECT  452  453  454\\nCONECT  453  455\\nCONECT  456  457\\nCONECT  457  458  460\\nCONECT  458  459  459  463\\nCONECT  460  461  462\\nCONECT  463  464\\nCONECT  464  465  467\\nCONECT  465  466  466  472\\nCONECT  467  468\\nCONECT  468  469\\nCONECT  469  470\\nCONECT  470  471\\nCONECT  472  473\\nCONECT  473  474  476\\nCONECT  474  475  475  480\\nCONECT  476  477\\nCONECT  477  478  478  479\\nCONECT  480  481\\nCONECT  481  482  484\\nCONECT  482  483  483  489\\nCONECT  484  485\\nCONECT  485  486\\nCONECT  486  487  487  488\\nCONECT  489  490\\nCONECT  490  491  493\\nCONECT  491  492  492  494\\nCONECT  494  495\\nCONECT  495  496  498\\nCONECT  496  497  497  503\\nCONECT  498  499\\nCONECT  499  500\\nCONECT  500  501  501  502\\nCONECT  503  504\\nCONECT  504  505  507\\nCONECT  505  506  506  512\\nCONECT  507  508\\nCONECT  508  509\\nCONECT  509  510\\nCONECT  510  511\\nCONECT  512  513\\nCONECT  513  514  516\\nCONECT  514  515  515  520\\nCONECT  516  517\\nCONECT  517  518  519\\nCONECT  520  521\\nCONECT  521  522  524\\nCONECT  522  523  523  531\\nCONECT  524  525\\nCONECT  525  526  526  527\\nCONECT  526  528\\nCONECT  527  529  529\\nCONECT  528  530  530\\nCONECT  529  530\\nCONECT  531  532\\nCONECT  532  533  535\\nCONECT  533  534  534  539\\nCONECT  535  536\\nCONECT  536  537  537  538\\nCONECT  539  540\\nCONECT  540  541  543\\nCONECT  541  542  542  548\\nCONECT  543  544\\nCONECT  544  545\\nCONECT  545  546  546  547\\nCONECT  548  549\\nCONECT  549  550  552\\nCONECT  550  551  551  556\\nCONECT  552  553\\nCONECT  553  554  554  555\\nCONECT  556  557\\nCONECT  557  558  560\\nCONECT  558  559  559  563\\nCONECT  560  561  562\\nCONECT  563  564\\nCONECT  564  565  567\\nCONECT  565  566  566  571\\nCONECT  567  568\\nCONECT  568  569  569  570\\nCONECT  571  572\\nCONECT  572  573  575\\nCONECT  573  574  574  576\\nCONECT  576  577\\nCONECT  577  578  580\\nCONECT  578  579  579  581\\nCONECT  581  582\\nCONECT  582  583  585\\nCONECT  583  584  584  588\\nCONECT  585  586  587\\nCONECT  588  589\\nCONECT  589  590  592\\nCONECT  590  591  591  599\\nCONECT  592  593\\nCONECT  593  594\\nCONECT  594  595\\nCONECT  595  596\\nCONECT  596  597  598  598\\nCONECT  599  600\\nCONECT  600  601\\nCONECT  601  602  602  603\\nCONECT  603  604\\nCONECT  604  605  607\\nCONECT  605  606  606  611\\nCONECT  607  608  609\\nCONECT  608  610\\nCONECT  611  612\\nCONECT  612  613  615\\nCONECT  613  614  614  619\\nCONECT  615  616\\nCONECT  616  617  618\\nCONECT  619  620\\nCONECT  620  621  623\\nCONECT  621  622  622  630\\nCONECT  623  624\\nCONECT  624  625\\nCONECT  625  626\\nCONECT  626  627\\nCONECT  627  628  629  629\\nCONECT  630  631\\nCONECT  631  632  634\\nCONECT  632  633  633  638\\nCONECT  634  635\\nCONECT  635  636  636  637\\nCONECT  638  639\\nCONECT  639  640  642\\nCONECT  640  641  641  643\\nCONECT  643  644\\nCONECT  644  645  647\\nCONECT  645  646  646  652\\nCONECT  647  648\\nCONECT  648  649\\nCONECT  649  650\\nCONECT  650  651\\nCONECT  652  653\\nCONECT  653  654  656\\nCONECT  654  655  655  660\\nCONECT  656  657\\nCONECT  657  658  659\\nCONECT  660  661\\nCONECT  661  662  664\\nCONECT  662  663  663  669\\nCONECT  664  665\\nCONECT  665  666\\nCONECT  666  667\\nCONECT  667  668\\nCONECT  669  670  675\\nCONECT  670  671  673\\nCONECT  671  672  672  676\\nCONECT  673  674\\nCONECT  674  675\\nCONECT  676  677\\nCONECT  677  678  680\\nCONECT  678  679  679  683\\nCONECT  680  681  682\\nCONECT  683  684\\nCONECT  684  685  687\\nCONECT  685  686  686  695\\nCONECT  687  688\\nCONECT  688  689  689  690\\nCONECT  689  691\\nCONECT  690  692  692\\nCONECT  691  693  693\\nCONECT  692  693\\nCONECT  693  694\\nCONECT  695  696\\nCONECT  696  697  699\\nCONECT  697  698  698  703\\nCONECT  699  700\\nCONECT  700  701  701  702\\nCONECT  703  704\\nCONECT  704  705  707\\nCONECT  705  706  706  709\\nCONECT  707  708\\nCONECT  709  710\\nCONECT  710  711  713\\nCONECT  711  712  712  717\\nCONECT  713  714\\nCONECT  714  715  716\\nCONECT  717  718\\nCONECT  718  719  721\\nCONECT  719  720  720  725\\nCONECT  721  722\\nCONECT  722  723  723  724\\nCONECT  725  726\\nCONECT  726  727  729\\nCONECT  727  728  728  730\\nCONECT  730  731\\nCONECT  731  732  734\\nCONECT  732  733  733  737\\nCONECT  734  735  736\\nCONECT  737  738\\nCONECT  738  739  741\\nCONECT  739  740  740  748\\nCONECT  741  742\\nCONECT  742  743\\nCONECT  743  744\\nCONECT  744  745\\nCONECT  745  746  747  747\\nCONECT  748  749\\nCONECT  749  750  752\\nCONECT  750  751  751  759\\nCONECT  752  753\\nCONECT  753  754\\nCONECT  754  755\\nCONECT  755  756\\nCONECT  756  757  758  758\\nCONECT  759  760\\nCONECT  760  761  763\\nCONECT  761  762  762  765\\nCONECT  763  764\\nCONECT  765  766\\nCONECT  766  767  769\\nCONECT  767  768  768  770\\nCONECT  770  771\\nCONECT  771  772  774\\nCONECT  772  773  773  775\\nCONECT  775  776\\nCONECT  776  777  779\\nCONECT  777  778  778  783\\nCONECT  779  780  781\\nCONECT  780  782\\nCONECT  783  784\\nCONECT  784  785  787\\nCONECT  785  786  786  791\\nCONECT  787  788\\nCONECT  788  789  789  790\\nCONECT  791  792\\nCONECT  792  793  795\\nCONECT  793  794  794  800\\nCONECT  795  796\\nCONECT  796  797\\nCONECT  797  798  798  799\\nCONECT  800  801\\nCONECT  801  802  804\\nCONECT  802  803  803  807\\nCONECT  804  805  806\\nCONECT  807  808\\nCONECT  808  809  811\\nCONECT  809  810  810  818\\nCONECT  811  812\\nCONECT  812  813  813  814\\nCONECT  813  815\\nCONECT  814  816  816\\nCONECT  815  817  817\\nCONECT  816  817\\nCONECT  818  819\\nCONECT  819  820  822\\nCONECT  820  821  821  827\\nCONECT  822  823\\nCONECT  823  824\\nCONECT  824  825  825  826\\nCONECT  827  828\\nCONECT  828  829  831\\nCONECT  829  830  830  835\\nCONECT  831  832\\nCONECT  832  833\\nCONECT  833  834\\nCONECT  835 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1150\\nCONECT 1151 1152\\nCONECT 1152 1153 1155\\nCONECT 1153 1154 1154 1156\\nCONECT 1156 1157\\nCONECT 1157 1158 1160\\nCONECT 1158 1159 1159 1165\\nCONECT 1160 1161\\nCONECT 1161 1162\\nCONECT 1162 1163\\nCONECT 1163 1164\\nCONECT 1165 1166\\nCONECT 1166 1167 1169\\nCONECT 1167 1168 1168 1176\\nCONECT 1169 1170\\nCONECT 1170 1171\\nCONECT 1171 1172\\nCONECT 1172 1173\\nCONECT 1173 1174 1175 1175\\nCONECT 1176 1177\\nCONECT 1177 1178 1180\\nCONECT 1178 1179 1179 1183\\nCONECT 1180 1181 1182\\nCONECT 1183 1184\\nCONECT 1184 1185 1187\\nCONECT 1185 1186 1186 1191\\nCONECT 1187 1188 1189\\nCONECT 1188 1190\\nCONECT 1191 1192\\nCONECT 1192 1193 1195\\nCONECT 1193 1194 1194 1198\\nCONECT 1195 1196 1197\\nCONECT 1198 1199\\nCONECT 1199 1200 1202\\nCONECT 1200 1201 1201 1205\\nCONECT 1202 1203 1204\\nCONECT 1205 1206\\nCONECT 1206 1207 1209\\nCONECT 1207 1208 1208 1216\\nCONECT 1209 1210\\nCONECT 1210 1211 1211 1212\\nCONECT 1211 1213\\nCONECT 1212 1214 1214\\nCONECT 1213 1215 1215\\nCONECT 1214 1215\\nCONECT 1216 1217\\nCONECT 1217 1218 1220\\nCONECT 1218 1219 1219 1227\\nCONECT 1220 1221\\nCONECT 1221 1222\\nCONECT 1222 1223\\nCONECT 1223 1224\\nCONECT 1224 1225 1226 1226\\nCONECT 1227 1228\\nCONECT 1228 1229 1231\\nCONECT 1229 1230 1230 1234\\nCONECT 1231 1232 1233\\nCONECT 1234 1235\\nCONECT 1235 1236\\nCONECT 1236 1237 1237 1238\\nCONECT 1238 1239\\nCONECT 1239 1240 1242\\nCONECT 1240 1241 1241 1245\\nCONECT 1242 1243 1244\\nCONECT 1245 1246\\nCONECT 1246 1247 1249\\nCONECT 1247 1248 1248 1259\\nCONECT 1249 1250\\nCONECT 1250 1251 1251 1252\\nCONECT 1251 1253\\nCONECT 1252 1254 1254 1255\\nCONECT 1253 1254\\nCONECT 1254 1256\\nCONECT 1255 1257 1257\\nCONECT 1256 1258 1258\\nCONECT 1257 1258\\nCONECT 1259 1260\\nCONECT 1260 1261 1263\\nCONECT 1261 1262 1262 1267\\nCONECT 1263 1264\\nCONECT 1264 1265 1265 1266\\nCONECT 1267 1268\\nCONECT 1268 1269 1271\\nCONECT 1269 1270 1270 1272\\nCONECT 1272 1273\\nCONECT 1273 1274 1276\\nCONECT 1274 1275 1275 1284\\nCONECT 1276 1277\\nCONECT 1277 1278 1278 1279\\nCONECT 1278 1280\\nCONECT 1279 1281 1281\\nCONECT 1280 1282 1282\\nCONECT 1281 1282\\nCONECT 1282 1283\\nCONECT 1284 1285\\nCONECT 1285 1286 1288\\nCONECT 1286 1287 1287 1293\\nCONECT 1288 1289\\nCONECT 1289 1290\\nCONECT 1290 1291\\nCONECT 1291 1292\\nCONECT 1293 1294\\nCONECT 1294 1295 1297\\nCONECT 1295 1296 1296\\nCONECT 1297 1298\\nCONECT 1298 1299 1299 1300\\nCONECT 1301 1302 1303 1304 1305\\nCONECT 1306 1307 1308 1309 1310\\nCONECT 1311 1312 1313\\nCONECT 1312 1314\\nEND\\n\",\"pdb\");\n\tviewer_1678688749878809.addModel(\"COMPND    Docked.pdb\\nHETATM    1  C1  UNL     1      23.135 -25.209  -4.845  1.00  0.00           C  \\nHETATM    2  C2  UNL     1      22.822 -26.099  -5.878  1.00  0.00           C  \\nHETATM    3  C3  UNL     1      22.038 -27.229  -5.615  1.00  0.00           C  \\nHETATM    4  C4  UNL     1      21.569 -27.468  -4.319  1.00  0.00           C  \\nHETATM    5  C5  UNL     1      21.883 -26.578  -3.286  1.00  0.00           C  \\nHETATM    6  C6  UNL     1      22.666 -25.449  -3.549  1.00  0.00           C  \\nCONECT    1    2    2    6\\nCONECT    2    3\\nCONECT    3    4    4\\nCONECT    4    5\\nCONECT    5    6    6\\nEND\\n\");\n\tviewer_1678688749878809.setStyle({\"resn\": [\"DMS\", \"UNL\", \"SO4\", \"LIG\", \"HOH\", \"Cl\"], \"invert\": 1},{\"cartoon\": {\"colorscheme\": \"ssPyMol\"}});\n\tviewer_1678688749878809.addSurface(1,{\"opacity\": 0.7, \"color\": \"white\"},{\"resn\": [\"DMS\", \"UNL\", \"SO4\", \"LIG\", \"HOH\", \"Cl\"], \"invert\": 1});\n\tviewer_1678688749878809.setStyle({\"resi\": \"132\"},{\"stick\": {\"colorscheme\": \"blueCarbon\"}});\n\tviewer_1678688749878809.setStyle({\"resi\": \"147\"},{\"stick\": {\"colorscheme\": \"blueCarbon\"}});\n\tviewer_1678688749878809.setStyle({\"resi\": \"311\"},{\"stick\": {\"colorscheme\": \"blueCarbon\"}});\n\tviewer_1678688749878809.setStyle({\"resn\": \"LIG\"},{\"stick\": {\"colorscheme\": \"whiteCarbon\", \"radius\": 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      "text/html": [
       "<div id=\"3dmolviewer_1678688749878809\"  style=\"position: relative; width: 800px; height: 800px\">\n",
       "        <p id=\"3dmolwarning_1678688749878809\" style=\"background-color:#ffcccc;color:black\">You appear to be running in JupyterLab (or JavaScript failed to load for some other reason).  You need to install the 3dmol extension: <br>\n",
       "        <tt>jupyter labextension install jupyterlab_3dmol</tt></p>\n",
       "        </div>\n",
       "<script>\n",
       "\n",
       "var loadScriptAsync = function(uri){\n",
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       "    if (typeof module !== 'undefined') savedmodule = module;\n",
       "    else module = {}\n",
       "\n",
       "    var tag = document.createElement('script');\n",
       "    tag.src = uri;\n",
       "    tag.async = true;\n",
       "    tag.onload = () => {\n",
       "        exports = savedexports;\n",
       "        module = savedmodule;\n",
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       "\n",
       "if(typeof $3Dmolpromise === 'undefined') {\n",
       "$3Dmolpromise = null;\n",
       "  $3Dmolpromise = loadScriptAsync('https://cdnjs.cloudflare.com/ajax/libs/3Dmol/2.0.1/3Dmol-min.js');\n",
       "}\n",
       "\n",
       "var viewer_1678688749878809 = null;\n",
       "var warn = document.getElementById(\"3dmolwarning_1678688749878809\");\n",
       "if(warn) {\n",
       "    warn.parentNode.removeChild(warn);\n",
       "}\n",
       "$3Dmolpromise.then(function() {\n",
       "viewer_1678688749878809 = $3Dmol.createViewer(document.getElementById(\"3dmolviewer_1678688749878809\"),{backgroundColor:\"white\"});\n",
       "viewer_1678688749878809.zoomTo();\n",
       "\tviewer_1678688749878809.addModel(\"COMPND    LYSOZYME\\nATOM      1  N   MET A   1       5.561 -15.963  -8.933  1.00 16.19           N  \\nATOM      2  CA AMET A   1       7.044 -15.926  -8.982  0.50 15.51           C  \\nATOM      3  C   MET A   1       7.565 -17.233  -9.569  1.00 15.36           C  \\nATOM      4  O   MET A   1       6.935 -18.292  -9.473  1.00 14.94           O  \\nATOM      5  CB AMET A   1       7.633 -15.614  -7.579  0.50 15.40           C  \\nATOM      6  CG AMET A   1       9.121 -15.214  -7.502  0.50 15.40           C  \\nATOM      7  SD AMET A   1       9.709 -13.669  -8.227  0.50 14.04           S  \\nATOM      8  CE AMET A   1       8.304 -12.536  -8.057  0.50 10.74           C  \\nATOM      9  N   ASN A   2       8.696 -17.109 -10.221  1.00 13.04           N  \\nATOM     10  CA  ASN A   2       9.444 -18.214 -10.830  1.00 11.28           C  \\nATOM     11  C   ASN A   2      10.923 -17.749 -10.851  1.00 11.13           C  \\nATOM     12  O   ASN A   2      11.262 -16.586 -10.453  1.00  8.10           O  \\nATOM     13  CB  ASN A   2       8.903 -18.572 -12.242  1.00 11.33           C  \\nATOM     14  CG  ASN A   2       8.979 -17.384 -13.226  1.00 13.64           C  \\nATOM     15  OD1 ASN A   2      10.036 -16.854 -13.455  1.00  9.75           O  \\nATOM     16  ND2 ASN A   2       7.826 -16.975 -13.804  1.00 12.13           N  \\nATOM     17  N   ILE A   3      11.803 -18.653 -11.255  1.00  9.44           N  \\nATOM     18  CA  ILE A   3      13.215 -18.370 -11.247  1.00  9.32           C  \\nATOM     19  C   ILE A   3      13.649 -17.195 -12.132  1.00  7.70           C  \\nATOM     20  O   ILE A   3      14.597 -16.489 -11.782  1.00  9.80           O  \\nATOM     21  CB  ILE A   3      14.010 -19.669 -11.653  1.00  9.07           C  \\nATOM     22  CG1 ILE A   3      15.522 -19.542 -11.375  1.00  8.89           C  \\nATOM     23  CG2 ILE A   3      13.701 -20.044 -13.127  1.00  9.00           C  \\nATOM     24  CD1 ILE A   3      16.021 -18.938 -10.040  1.00 10.83           C  \\nATOM     25  N   PHE A   4      12.976 -16.982 -13.265  1.00  8.60           N  \\nATOM     26  CA  PHE A   4      13.313 -15.827 -14.061  1.00  8.69           C  \\nATOM     27  C   PHE A   4      12.939 -14.559 -13.370  1.00  9.89           C  \\nATOM     28  O   PHE A   4      13.695 -13.598 -13.393  1.00  9.06           O  \\nATOM     29  CB  PHE A   4      12.680 -15.895 -15.481  1.00  8.95           C  \\nATOM     30  CG  PHE A   4      13.207 -17.104 -16.277  1.00 11.87           C  \\nATOM     31  CD1 PHE A   4      12.684 -18.381 -16.087  1.00 12.45           C  \\nATOM     32  CD2 PHE A   4      14.252 -16.959 -17.165  1.00 10.91           C  \\nATOM     33  CE1 PHE A   4      13.203 -19.507 -16.757  1.00 10.97           C  \\nATOM     34  CE2 PHE A   4      14.737 -18.073 -17.875  1.00 13.68           C  \\nATOM     35  CZ  PHE A   4      14.194 -19.334 -17.662  1.00 13.03           C  \\nATOM     36  N   GLU A   5      11.735 -14.528 -12.804  1.00  9.90           N  \\nATOM     37  CA  GLU A   5      11.306 -13.288 -12.184  1.00 10.93           C  \\nATOM     38  C   GLU A   5      12.211 -12.996 -10.954  1.00  9.58           C  \\nATOM     39  O   GLU A   5      12.515 -11.866 -10.632  1.00  9.92           O  \\nATOM     40  CB  GLU A   5       9.901 -13.444 -11.758  1.00  9.58           C  \\nATOM     41  CG  GLU A   5       8.948 -13.592 -12.964  1.00 15.91           C  \\nATOM     42  CD  GLU A   5       7.492 -13.611 -12.523  1.00 20.54           C  \\nATOM     43  OE1 GLU A   5       7.233 -13.319 -11.345  1.00 25.87           O  \\nATOM     44  OE2 GLU A   5       6.590 -13.885 -13.346  1.00 24.46           O  \\nATOM     45  N   MET A   6      12.558 -14.075 -10.256  1.00 10.80           N  \\nATOM     46  CA  MET A   6      13.414 -13.998  -9.100  1.00 11.41           C  \\nATOM     47  C   MET A   6      14.747 -13.416  -9.466  1.00  9.30           C  \\nATOM     48  O   MET A   6      15.191 -12.450  -8.826  1.00 12.93           O  \\nATOM     49  CB  MET A   6      13.592 -15.388  -8.488  1.00 10.41           C  \\nATOM     50  CG  MET A   6      14.245 -15.365  -7.093  1.00 12.68           C  \\nATOM     51  SD  MET A   6      14.896 -16.987  -6.864  1.00 11.50           S  \\nATOM     52  CE  MET A   6      15.143 -17.019  -5.053  1.00 14.29           C  \\nATOM     53  N   LEU A   7      15.419 -14.013 -10.450  1.00  9.60           N  \\nATOM     54  CA  LEU A   7      16.760 -13.572 -10.840  1.00  9.70           C  \\nATOM     55  C   LEU A   7      16.725 -12.198 -11.446  1.00 10.08           C  \\nATOM     56  O   LEU A   7      17.663 -11.405 -11.248  1.00 10.17           O  \\nATOM     57  CB  LEU A   7      17.456 -14.566 -11.767  1.00  9.47           C  \\nATOM     58  CG  LEU A   7      18.050 -15.641 -10.882  1.00  9.83           C  \\nATOM     59  CD1 LEU A   7      18.407 -16.854 -11.660  1.00 11.30           C  \\nATOM     60  CD2 LEU A   7      19.263 -15.036 -10.178  1.00  7.37           C  \\nATOM     61  N   ARG A   8      15.623 -11.872 -12.125  1.00 10.56           N  \\nATOM     62  CA  ARG A   8      15.486 -10.533 -12.730  1.00 10.46           C  \\nATOM     63  C   ARG A   8      15.430  -9.437 -11.619  1.00 11.05           C  \\nATOM     64  O   ARG A   8      15.999  -8.357 -11.787  1.00 11.99           O  \\nATOM     65  CB  ARG A   8      14.207 -10.427 -13.573  1.00  9.24           C  \\nATOM     66  CG  ARG A   8      13.842  -8.998 -13.962  1.00  8.95           C  \\nATOM     67  CD  ARG A   8      14.682  -8.440 -15.117  1.00 10.45           C  \\nATOM     68  NE  ARG A   8      14.315  -7.024 -15.407  1.00 17.11           N  \\nATOM     69  CZ  ARG A   8      14.510  -5.992 -14.572  1.00 17.32           C  \\nATOM     70  NH1 ARG A   8      15.075  -6.150 -13.368  1.00 19.70           N  \\nATOM     71  NH2 ARG A   8      14.103  -4.781 -14.898  1.00 21.76           N  \\nATOM     72  N   ILE A   9      14.727  -9.723 -10.513  1.00 10.05           N  \\nATOM     73  CA  ILE A   9      14.736  -8.832  -9.354  1.00 11.98           C  \\nATOM     74  C   ILE A   9      16.184  -8.699  -8.794  1.00 10.19           C  \\nATOM     75  O   ILE A   9      16.685  -7.599  -8.621  1.00 11.01           O  \\nATOM     76  CB  ILE A   9      13.745  -9.307  -8.310  1.00 11.81           C  \\nATOM     77  CG1 ILE A   9      12.295  -8.991  -8.792  1.00 11.16           C  \\nATOM     78  CG2 ILE A   9      14.127  -8.715  -6.901  1.00 13.13           C  \\nATOM     79  CD1 ILE A   9      11.180  -9.833  -8.105  1.00 11.02           C  \\nATOM     80  N   ASP A  10      16.875  -9.822  -8.643  1.00  9.37           N  \\nATOM     81  CA  ASP A  10      18.185  -9.878  -7.994  1.00 10.57           C  \\nATOM     82  C   ASP A  10      19.311  -9.308  -8.857  1.00 10.86           C  \\nATOM     83  O   ASP A  10      20.255  -8.693  -8.331  1.00 10.88           O  \\nATOM     84  CB  ASP A  10      18.506 -11.300  -7.545  1.00  8.71           C  \\nATOM     85  CG  ASP A  10      17.731 -11.697  -6.281  1.00 10.36           C  \\nATOM     86  OD1 ASP A  10      17.176 -10.813  -5.602  1.00 12.18           O  \\nATOM     87  OD2 ASP A  10      17.610 -12.911  -5.989  1.00 15.40           O  \\nATOM     88  N   GLU A  11      19.154  -9.412 -10.175  1.00 10.35           N  \\nATOM     89  CA  GLU A  11      20.297  -9.178 -11.071  1.00  9.98           C  \\nATOM     90  C   GLU A  11      20.085  -7.849 -11.752  1.00 11.17           C  \\nATOM     91  O   GLU A  11      21.027  -7.244 -12.149  1.00 10.89           O  \\nATOM     92  CB  GLU A  11      20.423 -10.284 -12.090  1.00 11.45           C  \\nATOM     93  CG  GLU A  11      20.983 -11.570 -11.540  1.00  8.72           C  \\nATOM     94  CD  GLU A  11      22.331 -11.403 -10.856  1.00 14.34           C  \\nATOM     95  OE1 GLU A  11      22.997 -10.296 -10.924  1.00 19.80           O  \\nATOM     96  OE2 GLU A  11      22.765 -12.362 -10.191  1.00 13.76           O  \\nATOM     97  N   GLY A  12      18.835  -7.395 -11.858  1.00  9.73           N  \\nATOM     98  CA  GLY A  12      18.503  -6.196 -12.686  1.00 10.14           C  \\nATOM     99  C   GLY A  12      18.558  -6.457 -14.191  1.00  9.64           C  \\nATOM    100  O   GLY A  12      18.692  -7.612 -14.632  1.00  8.39           O  \\nATOM    101  N   LEU A  13      18.315  -5.384 -14.951  1.00 10.95           N  \\nATOM    102  CA  LEU A  13      18.476  -5.410 -16.395  1.00 10.93           C  \\nATOM    103  C   LEU A  13      19.230  -4.158 -16.821  1.00 12.47           C  \\nATOM    104  O   LEU A  13      18.764  -3.037 -16.638  1.00 10.09           O  \\nATOM    105  CB  LEU A  13      17.121  -5.551 -17.094  1.00 10.84           C  \\nATOM    106  CG  LEU A  13      17.051  -5.400 -18.622  1.00 13.98           C  \\nATOM    107  CD1 LEU A  13      17.887  -6.504 -19.296  1.00 14.85           C  \\nATOM    108  CD2 LEU A  13      15.573  -5.621 -18.963  1.00 20.16           C  \\nATOM    109  N   ARG A  14      20.427  -4.347 -17.366  1.00 13.51           N  \\nATOM    110  CA  ARG A  14      21.161  -3.231 -17.947  1.00 12.55           C  \\nATOM    111  C   ARG A  14      21.624  -3.631 -19.343  1.00 13.91           C  \\nATOM    112  O   ARG A  14      22.092  -4.770 -19.558  1.00 13.51           O  \\nATOM    113  CB  ARG A  14      22.348  -2.865 -17.057  1.00 13.69           C  \\nATOM    114  CG  ARG A  14      21.881  -2.627 -15.541  1.00 10.77           C  \\nATOM    115  CD  ARG A  14      22.950  -2.031 -14.624  1.00 14.02           C  \\nATOM    116  NE  ARG A  14      23.267  -0.711 -15.097  1.00 18.61           N  \\nATOM    117  CZ  ARG A  14      24.231   0.041 -14.576  1.00 23.42           C  \\nATOM    118  NH1 ARG A  14      24.992  -0.441 -13.583  1.00 21.81           N  \\nATOM    119  NH2 ARG A  14      24.456   1.241 -15.079  1.00 24.97           N  \\nATOM    120  N   LEU A  15      21.488  -2.704 -20.276  1.00 14.21           N  \\nATOM    121  CA  LEU A  15      21.708  -3.028 -21.647  1.00 13.95           C  \\nATOM    122  C   LEU A  15      23.062  -2.639 -22.085  1.00 15.21           C  \\nATOM    123  O   LEU A  15      23.426  -3.007 -23.183  1.00 16.83           O  \\nATOM    124  CB  LEU A  15      20.647  -2.401 -22.523  1.00 14.29           C  \\nATOM    125  CG  LEU A  15      19.175  -2.813 -22.276  1.00 14.19           C  \\nATOM    126  CD1 LEU A  15      18.319  -2.230 -23.411  1.00 16.89           C  \\nATOM    127  CD2 LEU A  15      18.984  -4.289 -22.191  1.00 16.65           C  \\nATOM    128  N   LYS A  16      23.837  -1.955 -21.239  1.00 13.81           N  \\nATOM    129  CA  LYS A  16      25.207  -1.511 -21.600  1.00 14.34           C  \\nATOM    130  C   LYS A  16      26.123  -2.220 -20.641  1.00 13.58           C  \\nATOM    131  O   LYS A  16      25.731  -2.428 -19.477  1.00 15.63           O  \\nATOM    132  CB  LYS A  16      25.445  -0.003 -21.420  1.00 13.23           C  \\nATOM    133  CG  LYS A  16      24.695   0.873 -22.429  1.00 15.23           C  \\nATOM    134  CD  LYS A  16      24.562   2.348 -21.919  1.00 18.50           C  \\nATOM    135  CE  LYS A  16      24.042   3.253 -23.023  0.50 18.65           C  \\nATOM    136  NZ  LYS A  16      23.452   4.494 -22.483  0.50 21.53           N  \\nATOM    137  N   ILE A  17      27.336  -2.553 -21.085  1.00 14.54           N  \\nATOM    138  CA  ILE A  17      28.286  -3.207 -20.207  1.00 12.07           C  \\nATOM    139  C   ILE A  17      28.445  -2.430 -18.902  1.00 12.48           C  \\nATOM    140  O   ILE A  17      28.560  -1.225 -18.904  1.00 11.54           O  \\nATOM    141  CB  ILE A  17      29.634  -3.435 -20.873  1.00 12.95           C  \\nATOM    142  CG1 ILE A  17      29.493  -4.310 -22.144  1.00  8.75           C  \\nATOM    143  CG2 ILE A  17      30.696  -3.989 -19.862  1.00 12.45           C  \\nATOM    144  CD1 ILE A  17      30.848  -4.603 -22.812  1.00 12.23           C  \\nATOM    145  N   TYR A  18      28.373  -3.145 -17.790  1.00 14.39           N  \\nATOM    146  CA  TYR A  18      28.495  -2.515 -16.435  1.00 14.47           C  \\nATOM    147  C   TYR A  18      29.363  -3.471 -15.607  1.00 11.71           C  \\nATOM    148  O   TYR A  18      29.567  -4.613 -16.003  1.00 11.89           O  \\nATOM    149  CB  TYR A  18      27.118  -2.287 -15.749  1.00 13.83           C  \\nATOM    150  CG  TYR A  18      26.357  -3.552 -15.398  1.00 16.86           C  \\nATOM    151  CD1 TYR A  18      26.399  -4.107 -14.085  1.00 18.55           C  \\nATOM    152  CD2 TYR A  18      25.550  -4.229 -16.381  1.00 17.94           C  \\nATOM    153  CE1 TYR A  18      25.696  -5.338 -13.766  1.00 17.18           C  \\nATOM    154  CE2 TYR A  18      24.833  -5.419 -16.053  1.00 14.72           C  \\nATOM    155  CZ  TYR A  18      24.891  -5.954 -14.728  1.00 19.33           C  \\nATOM    156  OH  TYR A  18      24.153  -7.143 -14.446  1.00 17.43           O  \\nATOM    157  N   LYS A  19      29.830  -2.990 -14.466  1.00 10.51           N  \\nATOM    158  CA  LYS A  19      30.548  -3.762 -13.546  1.00 11.63           C  \\nATOM    159  C   LYS A  19      29.558  -4.240 -12.469  1.00 10.87           C  \\nATOM    160  O   LYS A  19      28.710  -3.454 -11.952  1.00 10.79           O  \\nATOM    161  CB  LYS A  19      31.682  -2.988 -12.948  1.00 10.53           C  \\nATOM    162  CG  LYS A  19      32.726  -2.643 -13.946  1.00 12.17           C  \\nATOM    163  CD  LYS A  19      33.877  -2.083 -13.250  1.00 13.68           C  \\nATOM    164  CE  LYS A  19      34.967  -1.539 -14.227  1.00 14.68           C  \\nATOM    165  NZ  LYS A  19      35.970  -0.819 -13.352  1.00 14.18           N  \\nATOM    166  N   ASP A  20      29.600  -5.541 -12.238  1.00 10.28           N  \\nATOM    167  CA  ASP A  20      28.755  -6.178 -11.230  1.00 10.35           C  \\nATOM    168  C   ASP A  20      29.298  -5.856  -9.825  1.00 11.13           C  \\nATOM    169  O   ASP A  20      30.226  -5.065  -9.684  1.00 13.25           O  \\nATOM    170  CB  ASP A  20      28.668  -7.714 -11.433  1.00  9.98           C  \\nATOM    171  CG  ASP A  20      29.988  -8.465 -11.129  1.00 12.88           C  \\nATOM    172  OD1 ASP A  20      30.984  -7.917 -10.654  1.00 12.47           O  \\nATOM    173  OD2 ASP A  20      30.049  -9.702 -11.403  1.00 17.43           O  \\nATOM    174  N   THR A  21      28.720  -6.477  -8.805  1.00 11.25           N  \\nATOM    175  CA ATHR A  21      29.009  -6.152  -7.390  0.50 11.50           C  \\nATOM    176  C   THR A  21      30.477  -6.421  -7.079  1.00 13.05           C  \\nATOM    177  O   THR A  21      31.021  -5.897  -6.128  1.00 13.00           O  \\nATOM    178  CB ATHR A  21      28.137  -6.999  -6.443  0.50 11.96           C  \\nATOM    179  OG1ATHR A  21      28.532  -8.367  -6.545  0.50  9.71           O  \\nATOM    180  CG2ATHR A  21      26.613  -6.864  -6.788  0.50  9.51           C  \\nATOM    181  N   GLU A  22      31.092  -7.317  -7.862  1.00 13.35           N  \\nATOM    182  CA  GLU A  22      32.490  -7.662  -7.724  1.00 12.75           C  \\nATOM    183  C   GLU A  22      33.430  -6.817  -8.601  1.00 12.79           C  \\nATOM    184  O   GLU A  22      34.654  -7.008  -8.550  1.00 14.56           O  \\nATOM    185  CB  GLU A  22      32.706  -9.174  -7.929  1.00 14.64           C  \\nATOM    186  CG  GLU A  22      32.057 -10.100  -6.954  1.00 15.63           C  \\nATOM    187  CD  GLU A  22      32.687  -9.982  -5.568  1.00 24.42           C  \\nATOM    188  OE1 GLU A  22      33.939  -9.752  -5.413  1.00 27.57           O  \\nATOM    189  OE2 GLU A  22      31.927 -10.082  -4.603  1.00 25.73           O  \\nATOM    190  N   GLY A  23      32.899  -5.860  -9.369  1.00 12.54           N  \\nATOM    191  CA  GLY A  23      33.714  -5.054 -10.291  1.00 12.77           C  \\nATOM    192  C   GLY A  23      33.925  -5.726 -11.631  1.00 13.27           C  \\nATOM    193  O   GLY A  23      34.746  -5.261 -12.389  1.00 12.49           O  \\nATOM    194  N   TYR A  24      33.188  -6.818 -11.934  1.00 12.52           N  \\nATOM    195  CA ATYR A  24      33.399  -7.500 -13.218  0.50 12.99           C  \\nATOM    196  C   TYR A  24      32.400  -7.159 -14.255  1.00 12.20           C  \\nATOM    197  O   TYR A  24      31.233  -7.035 -13.968  1.00 12.55           O  \\nATOM    198  CB ATYR A  24      33.556  -9.021 -13.089  0.50 13.61           C  \\nATOM    199  CG ATYR A  24      34.623  -9.343 -12.121  0.50 13.38           C  \\nATOM    200  CD1ATYR A  24      35.916  -8.819 -12.279  0.50 11.36           C  \\nATOM    201  CD2ATYR A  24      34.349 -10.120 -11.004  0.50 14.00           C  \\nATOM    202  CE1ATYR A  24      36.918  -9.086 -11.342  0.50 12.77           C  \\nATOM    203  CE2ATYR A  24      35.317 -10.382 -10.083  0.50 15.94           C  \\nATOM    204  CZ ATYR A  24      36.598  -9.865 -10.238  0.50 14.47           C  \\nATOM    205  OH ATYR A  24      37.533 -10.179  -9.280  0.50 17.75           O  \\nATOM    206  N   TYR A  25      32.932  -7.026 -15.486  1.00 12.09           N  \\nATOM    207  CA  TYR A  25      32.179  -6.584 -16.638  1.00 12.61           C  \\nATOM    208  C   TYR A  25      31.081  -7.581 -16.948  1.00 11.80           C  \\nATOM    209  O   TYR A  25      31.336  -8.785 -17.028  1.00 11.78           O  \\nATOM    210  CB  TYR A  25      33.048  -6.452 -17.840  1.00 11.99           C  \\nATOM    211  CG  TYR A  25      33.968  -5.305 -17.737  1.00 13.52           C  \\nATOM    212  CD1 TYR A  25      35.325  -5.518 -17.812  1.00 15.00           C  \\nATOM    213  CD2 TYR A  25      33.488  -4.013 -17.535  1.00 12.92           C  \\nATOM    214  CE1 TYR A  25      36.223  -4.433 -17.731  1.00 15.76           C  \\nATOM    215  CE2 TYR A  25      34.355  -2.917 -17.467  1.00 14.50           C  \\nATOM    216  CZ  TYR A  25      35.739  -3.147 -17.578  1.00 16.48           C  \\nATOM    217  OH  TYR A  25      36.629  -2.116 -17.499  1.00 18.00           O  \\nATOM    218  N   THR A  26      29.880  -7.035 -17.078  1.00 11.69           N  \\nATOM    219  CA  THR A  26      28.634  -7.821 -17.042  1.00 12.00           C  \\nATOM    220  C   THR A  26      27.677  -7.090 -17.975  1.00 11.69           C  \\nATOM    221  O   THR A  26      27.861  -5.934 -18.220  1.00 12.63           O  \\nATOM    222  CB  THR A  26      28.104  -7.933 -15.551  1.00 12.28           C  \\nATOM    223  OG1 THR A  26      29.112  -8.590 -14.733  1.00 13.67           O  \\nATOM    224  CG2 THR A  26      26.740  -8.671 -15.460  1.00 13.96           C  \\nATOM    225  N   ILE A  27      26.673  -7.754 -18.529  1.00 10.49           N  \\nATOM    226  CA  ILE A  27      25.623  -7.061 -19.275  1.00 11.85           C  \\nATOM    227  C   ILE A  27      24.289  -7.760 -19.021  1.00 10.90           C  \\nATOM    228  O   ILE A  27      24.262  -8.839 -18.484  1.00 13.57           O  \\nATOM    229  CB  ILE A  27      25.970  -6.982 -20.827  1.00  8.77           C  \\nATOM    230  CG1 ILE A  27      25.126  -5.864 -21.494  1.00  9.65           C  \\nATOM    231  CG2 ILE A  27      25.863  -8.366 -21.435  1.00 12.03           C  \\nATOM    232  CD1 ILE A  27      25.660  -5.372 -22.839  1.00 11.30           C  \\nATOM    233  N   GLY A  28      23.198  -7.134 -19.399  1.00 11.08           N  \\nATOM    234  CA  GLY A  28      21.893  -7.789 -19.451  1.00 11.75           C  \\nATOM    235  C   GLY A  28      21.405  -8.092 -18.068  1.00 11.50           C  \\nATOM    236  O   GLY A  28      21.389  -7.193 -17.197  1.00 11.34           O  \\nATOM    237  N   ILE A  29      21.008  -9.359 -17.869  1.00 11.68           N  \\nATOM    238  CA  ILE A  29      20.474  -9.822 -16.566  1.00 10.38           C  \\nATOM    239  C   ILE A  29      21.581 -10.615 -15.842  1.00 10.59           C  \\nATOM    240  O   ILE A  29      21.520 -11.830 -15.751  1.00 11.75           O  \\nATOM    241  CB  ILE A  29      19.130 -10.547 -16.693  1.00 11.65           C  \\nATOM    242  CG1 ILE A  29      18.055  -9.646 -17.356  1.00  8.43           C  \\nATOM    243  CG2 ILE A  29      18.591 -10.990 -15.328  1.00 10.08           C  \\nATOM    244  CD1 ILE A  29      16.933 -10.395 -18.113  1.00 12.83           C  \\nATOM    245  N   GLY A  30      22.601  -9.907 -15.332  1.00 10.90           N  \\nATOM    246  CA  GLY A  30      23.716 -10.556 -14.663  1.00 10.32           C  \\nATOM    247  C   GLY A  30      24.459 -11.550 -15.525  1.00 11.48           C  \\nATOM    248  O   GLY A  30      24.903 -12.643 -15.066  1.00 12.69           O  \\nATOM    249  N   HIS A  31      24.650 -11.172 -16.779  1.00  8.99           N  \\nATOM    250  CA  HIS A  31      25.436 -12.044 -17.632  1.00 10.80           C  \\nATOM    251  C   HIS A  31      26.876 -11.567 -17.520  1.00  8.81           C  \\nATOM    252  O   HIS A  31      27.255 -10.542 -18.111  1.00 10.50           O  \\nATOM    253  CB  HIS A  31      24.990 -11.990 -19.097  1.00  9.28           C  \\nATOM    254  CG  HIS A  31      25.845 -12.837 -19.965  1.00  9.54           C  \\nATOM    255  ND1 HIS A  31      25.671 -14.193 -20.067  1.00 14.49           N  \\nATOM    256  CD2 HIS A  31      26.987 -12.555 -20.634  1.00 13.34           C  \\nATOM    257  CE1 HIS A  31      26.628 -14.703 -20.827  1.00 14.65           C  \\nATOM    258  NE2 HIS A  31      27.438 -13.727 -21.177  1.00 13.40           N  \\nATOM    259  N   LEU A  32      27.674 -12.359 -16.827  1.00 10.44           N  \\nATOM    260  CA  LEU A  32      29.069 -12.061 -16.591  1.00 12.64           C  \\nATOM    261  C   LEU A  32      29.796 -12.233 -17.912  1.00 12.40           C  \\nATOM    262  O   LEU A  32      29.675 -13.272 -18.584  1.00 12.89           O  \\nATOM    263  CB  LEU A  32      29.615 -13.058 -15.554  1.00 13.09           C  \\nATOM    264  CG  LEU A  32      31.118 -12.943 -15.243  1.00 14.71           C  \\nATOM    265  CD1 LEU A  32      31.455 -11.547 -14.710  1.00 11.58           C  \\nATOM    266  CD2 LEU A  32      31.592 -14.089 -14.245  1.00 14.66           C  \\nATOM    267  N   LEU A  33      30.519 -11.216 -18.322  1.00 12.36           N  \\nATOM    268  CA  LEU A  33      31.266 -11.293 -19.602  1.00 13.55           C  \\nATOM    269  C   LEU A  33      32.696 -11.751 -19.366  1.00 15.00           C  \\nATOM    270  O   LEU A  33      33.203 -12.621 -20.102  1.00 15.58           O  \\nATOM    271  CB  LEU A  33      31.321  -9.920 -20.203  1.00 13.92           C  \\nATOM    272  CG  LEU A  33      29.961  -9.530 -20.748  1.00  9.98           C  \\nATOM    273  CD1 LEU A  33      29.967  -8.038 -21.078  1.00 11.52           C  \\nATOM    274  CD2 LEU A  33      29.599 -10.356 -22.046  1.00  6.96           C  \\nATOM    275  N   THR A  34      33.339 -11.200 -18.333  1.00 15.13           N  \\nATOM    276  CA  THR A  34      34.686 -11.561 -18.021  1.00 16.46           C  \\nATOM    277  C   THR A  34      35.082 -11.015 -16.666  1.00 17.47           C  \\nATOM    278  O   THR A  34      34.547  -9.979 -16.232  1.00 17.59           O  \\nATOM    279  CB  THR A  34      35.721 -10.977 -19.080  1.00 18.65           C  \\nATOM    280  OG1 THR A  34      37.052 -11.341 -18.700  1.00 19.78           O  \\nATOM    281  CG2 THR A  34      35.689  -9.465 -19.114  1.00 12.88           C  \\nATOM    282  N   LYS A  35      36.068 -11.674 -16.039  1.00 18.87           N  \\nATOM    283  CA  LYS A  35      36.806 -11.089 -14.902  1.00 21.97           C  \\nATOM    284  C   LYS A  35      37.974 -10.166 -15.236  1.00 23.16           C  \\nATOM    285  O   LYS A  35      38.512  -9.480 -14.335  1.00 23.53           O  \\nATOM    286  CB  LYS A  35      37.258 -12.169 -13.930  1.00 22.07           C  \\nATOM    287  CG  LYS A  35      36.033 -12.908 -13.404  1.00 22.54           C  \\nATOM    288  CD  LYS A  35      36.355 -13.859 -12.265  1.00 20.80           C  \\nATOM    289  CE  LYS A  35      35.035 -14.572 -11.907  1.00 28.15           C  \\nATOM    290  NZ  LYS A  35      35.218 -15.611 -10.823  1.00 29.37           N  \\nATOM    291  N   SER A  36      38.357 -10.125 -16.505  1.00 23.27           N  \\nATOM    292  CA  SER A  36      39.391  -9.206 -16.956  1.00 22.49           C  \\nATOM    293  C   SER A  36      39.054  -7.756 -16.718  1.00 22.79           C  \\nATOM    294  O   SER A  36      37.917  -7.313 -16.954  1.00 20.74           O  \\nATOM    295  CB  SER A  36      39.643  -9.383 -18.454  1.00 23.05           C  \\nATOM    296  OG  SER A  36      40.470  -8.323 -18.929  1.00 21.13           O  \\nATOM    297  N   PRO A  37      40.044  -6.993 -16.251  1.00 23.64           N  \\nATOM    298  CA  PRO A  37      39.856  -5.563 -16.100  1.00 23.78           C  \\nATOM    299  C   PRO A  37      39.896  -4.829 -17.439  1.00 24.01           C  \\nATOM    300  O   PRO A  37      39.743  -3.621 -17.474  1.00 23.95           O  \\nATOM    301  CB  PRO A  37      41.054  -5.135 -15.238  1.00 24.98           C  \\nATOM    302  CG  PRO A  37      42.145  -6.158 -15.541  1.00 24.78           C  \\nATOM    303  CD  PRO A  37      41.366  -7.465 -15.809  1.00 24.30           C  \\nATOM    304  N   ASP A  38      40.068  -5.565 -18.522  1.00 23.55           N  \\nATOM    305  CA  ASP A  38      40.176  -4.981 -19.861  1.00 23.61           C  \\nATOM    306  C   ASP A  38      38.763  -4.867 -20.435  1.00 22.10           C  \\nATOM    307  O   ASP A  38      38.113  -5.896 -20.726  1.00 23.06           O  \\nATOM    308  CB  ASP A  38      40.984  -5.939 -20.711  1.00 23.90           C  \\nATOM    309  CG  ASP A  38      41.359  -5.383 -22.079  1.00 29.00           C  \\nATOM    310  OD1 ASP A  38      40.917  -4.290 -22.515  1.00 31.63           O  \\nATOM    311  OD2 ASP A  38      42.140  -6.103 -22.744  0.50 31.87           O  \\nATOM    312  N   LEU A  39      38.291  -3.640 -20.593  1.00 20.06           N  \\nATOM    313  CA  LEU A  39      37.000  -3.399 -21.170  1.00 17.93           C  \\nATOM    314  C   LEU A  39      36.922  -4.016 -22.574  1.00 17.00           C  \\nATOM    315  O   LEU A  39      35.903  -4.585 -22.967  1.00 14.52           O  \\nATOM    316  CB  LEU A  39      36.636  -1.933 -21.144  1.00 19.75           C  \\nATOM    317  CG  LEU A  39      35.242  -1.577 -21.762  1.00 19.08           C  \\nATOM    318  CD1 LEU A  39      33.981  -2.226 -21.083  1.00 15.17           C  \\nATOM    319  CD2 LEU A  39      35.178  -0.079 -21.883  1.00 17.63           C  \\nATOM    320  N   ASN A  40      38.013  -3.974 -23.313  1.00 15.29           N  \\nATOM    321  CA  ASN A  40      37.986  -4.574 -24.624  1.00 16.57           C  \\nATOM    322  C   ASN A  40      37.790  -6.091 -24.605  1.00 15.17           C  \\nATOM    323  O   ASN A  40      37.255  -6.653 -25.553  1.00 15.96           O  \\nATOM    324  CB  ASN A  40      39.272  -4.248 -25.372  1.00 19.04           C  \\nATOM    325  CG  ASN A  40      39.309  -2.805 -25.835  1.00 24.09           C  \\nATOM    326  OD1 ASN A  40      38.287  -2.209 -26.268  1.00 27.52           O  \\nATOM    327  ND2 ASN A  40      40.500  -2.211 -25.714  1.00 29.99           N  \\nATOM    328  N   ALA A  41      38.321  -6.754 -23.585  1.00 15.24           N  \\nATOM    329  CA  ALA A  41      38.222  -8.195 -23.467  1.00 15.24           C  \\nATOM    330  C   ALA A  41      36.757  -8.490 -23.200  1.00 15.28           C  \\nATOM    331  O   ALA A  41      36.235  -9.509 -23.713  1.00 16.99           O  \\nATOM    332  CB  ALA A  41      39.085  -8.733 -22.392  1.00 13.34           C  \\nATOM    333  N   ALA A  42      36.085  -7.617 -22.421  1.00 15.41           N  \\nATOM    334  CA  ALA A  42      34.615  -7.764 -22.207  1.00 13.34           C  \\nATOM    335  C   ALA A  42      33.800  -7.533 -23.458  1.00 14.85           C  \\nATOM    336  O   ALA A  42      32.802  -8.239 -23.737  1.00 15.53           O  \\nATOM    337  CB  ALA A  42      34.111  -6.888 -21.007  1.00 14.75           C  \\nATOM    338  N   LYS A  43      34.207  -6.541 -24.235  1.00 14.45           N  \\nATOM    339  CA  LYS A  43      33.554  -6.246 -25.485  1.00 13.01           C  \\nATOM    340  C   LYS A  43      33.731  -7.366 -26.446  1.00 11.58           C  \\nATOM    341  O   LYS A  43      32.795  -7.672 -27.135  1.00 13.80           O  \\nATOM    342  CB  LYS A  43      34.002  -4.925 -26.119  1.00 13.83           C  \\nATOM    343  CG  LYS A  43      33.566  -3.712 -25.306  1.00 18.49           C  \\nATOM    344  CD  LYS A  43      34.132  -2.436 -25.871  1.00 21.84           C  \\nATOM    345  CE  LYS A  43      33.394  -1.273 -25.232  1.00 26.35           C  \\nATOM    346  NZ  LYS A  43      33.578  -0.015 -25.966  1.00 30.22           N  \\nATOM    347  N   SER A  44      34.896  -8.006 -26.487  1.00 11.60           N  \\nATOM    348  CA  SER A  44      35.087  -9.174 -27.387  1.00 12.83           C  \\nATOM    349  C   SER A  44      34.145 -10.342 -26.941  1.00 13.44           C  \\nATOM    350  O   SER A  44      33.436 -10.996 -27.768  1.00 13.24           O  \\nATOM    351  CB  SER A  44      36.594  -9.526 -27.412  1.00 14.76           C  \\nATOM    352  OG  SER A  44      36.850 -10.723 -28.102  1.00 18.81           O  \\nATOM    353  N   GLU A  45      34.089 -10.602 -25.629  1.00 13.03           N  \\nATOM    354  CA  GLU A  45      33.200 -11.666 -25.058  1.00 12.59           C  \\nATOM    355  C   GLU A  45      31.750 -11.385 -25.361  1.00 12.07           C  \\nATOM    356  O   GLU A  45      31.017 -12.296 -25.676  1.00 13.76           O  \\nATOM    357  CB  GLU A  45      33.334 -11.748 -23.555  1.00 10.62           C  \\nATOM    358  CG  GLU A  45      34.647 -12.347 -23.128  1.00 12.96           C  \\nATOM    359  CD  GLU A  45      34.855 -13.718 -23.805  1.00 15.13           C  \\nATOM    360  OE1 GLU A  45      34.075 -14.665 -23.575  1.00 13.31           O  \\nATOM    361  OE2 GLU A  45      35.826 -13.847 -24.550  1.00 17.67           O  \\nATOM    362  N   LEU A  46      31.316 -10.121 -25.250  1.00 11.28           N  \\nATOM    363  CA  LEU A  46      29.963  -9.716 -25.595  1.00 10.57           C  \\nATOM    364  C   LEU A  46      29.645 -10.066 -27.044  1.00 11.44           C  \\nATOM    365  O   LEU A  46      28.620 -10.666 -27.334  1.00 12.45           O  \\nATOM    366  CB  LEU A  46      29.680  -8.195 -25.388  1.00  7.82           C  \\nATOM    367  CG  LEU A  46      28.261  -7.700 -25.710  1.00  8.57           C  \\nATOM    368  CD1 LEU A  46      27.223  -8.416 -24.846  1.00 11.19           C  \\nATOM    369  CD2 LEU A  46      28.126  -6.246 -25.455  1.00 10.01           C  \\nATOM    370  N   ASP A  47      30.509  -9.645 -27.950  1.00 12.06           N  \\nATOM    371  CA  ASP A  47      30.287  -9.869 -29.345  1.00 11.19           C  \\nATOM    372  C   ASP A  47      30.254 -11.369 -29.653  1.00 11.07           C  \\nATOM    373  O   ASP A  47      29.487 -11.789 -30.501  1.00 10.42           O  \\nATOM    374  CB  ASP A  47      31.423  -9.217 -30.093  1.00 10.99           C  \\nATOM    375  CG  ASP A  47      31.363  -7.695 -30.024  1.00 12.43           C  \\nATOM    376  OD1 ASP A  47      30.355  -7.081 -29.552  1.00 10.46           O  \\nATOM    377  OD2 ASP A  47      32.309  -7.121 -30.573  1.00 18.98           O  \\nATOM    378  N   LYS A  48      31.150 -12.145 -29.021  1.00 10.81           N  \\nATOM    379  CA  LYS A  48      31.160 -13.618 -29.170  1.00 10.31           C  \\nATOM    380  C   LYS A  48      29.782 -14.205 -28.710  1.00  9.51           C  \\nATOM    381  O   LYS A  48      29.201 -15.075 -29.374  1.00 10.98           O  \\nATOM    382  CB  LYS A  48      32.335 -14.214 -28.396  1.00  8.87           C  \\nATOM    383  CG  LYS A  48      32.462 -15.715 -28.570  1.00  9.35           C  \\nATOM    384  CD  LYS A  48      33.818 -16.315 -28.181  1.00  8.34           C  \\nATOM    385  CE  LYS A  48      34.396 -15.833 -26.876  1.00  9.68           C  \\nATOM    386  NZ  LYS A  48      33.695 -16.293 -25.719  1.00 11.58           N  \\nATOM    387  N   ALA A  49      29.245 -13.662 -27.615  1.00 10.87           N  \\nATOM    388  CA  ALA A  49      28.052 -14.170 -26.929  1.00 12.51           C  \\nATOM    389  C   ALA A  49      26.820 -13.908 -27.790  1.00 12.83           C  \\nATOM    390  O   ALA A  49      25.892 -14.760 -27.952  1.00 11.18           O  \\nATOM    391  CB  ALA A  49      27.927 -13.423 -25.553  1.00 13.07           C  \\nATOM    392  N   ILE A  50      26.842 -12.746 -28.406  1.00 12.15           N  \\nATOM    393  CA  ILE A  50      25.673 -12.274 -29.151  1.00 12.61           C  \\nATOM    394  C   ILE A  50      25.735 -12.652 -30.633  1.00 11.87           C  \\nATOM    395  O   ILE A  50      24.695 -12.767 -31.255  1.00 12.43           O  \\nATOM    396  CB  ILE A  50      25.472 -10.730 -29.010  1.00 10.16           C  \\nATOM    397  CG1 ILE A  50      25.282 -10.393 -27.508  1.00 14.77           C  \\nATOM    398  CG2 ILE A  50      24.281 -10.260 -29.866  1.00 11.98           C  \\nATOM    399  CD1 ILE A  50      24.049 -10.949 -26.859  1.00 14.13           C  \\nATOM    400  N   GLY A  51      26.937 -12.913 -31.144  1.00 13.85           N  \\nATOM    401  CA  GLY A  51      27.113 -13.231 -32.576  1.00 14.53           C  \\nATOM    402  C   GLY A  51      27.105 -11.986 -33.492  1.00 17.21           C  \\nATOM    403  O   GLY A  51      26.856 -12.081 -34.685  1.00 17.73           O  \\nATOM    404  N   ARG A  52      27.351 -10.806 -32.950  1.00 16.02           N  \\nATOM    405  CA  ARG A  52      27.364  -9.594 -33.759  1.00 16.50           C  \\nATOM    406  C   ARG A  52      28.271  -8.634 -33.015  1.00 14.92           C  \\nATOM    407  O   ARG A  52      28.613  -8.905 -31.871  1.00 15.80           O  \\nATOM    408  CB  ARG A  52      25.933  -9.028 -34.021  1.00 15.77           C  \\nATOM    409  CG  ARG A  52      25.246  -8.424 -32.779  1.00 17.56           C  \\nATOM    410  CD  ARG A  52      23.915  -7.712 -33.120  1.00 20.09           C  \\nATOM    411  NE  ARG A  52      23.293  -7.136 -31.928  1.00 20.79           N  \\nATOM    412  CZ  ARG A  52      23.658  -6.002 -31.341  1.00 21.18           C  \\nATOM    413  NH1 ARG A  52      24.597  -5.250 -31.904  1.00 25.60           N  \\nATOM    414  NH2 ARG A  52      23.006  -5.576 -30.243  1.00 23.53           N  \\nATOM    415  N   ASN A  53      28.662  -7.545 -33.683  1.00 14.53           N  \\nATOM    416  CA  ASN A  53      29.520  -6.494 -33.171  1.00 15.36           C  \\nATOM    417  C   ASN A  53      28.632  -5.561 -32.350  1.00 15.47           C  \\nATOM    418  O   ASN A  53      27.881  -4.804 -32.906  1.00 13.54           O  \\nATOM    419  CB  ASN A  53      30.083  -5.698 -34.363  1.00 15.64           C  \\nATOM    420  CG  ASN A  53      31.367  -6.294 -34.930  0.50 16.35           C  \\nATOM    421  OD1 ASN A  53      32.043  -7.087 -34.292  0.50 17.84           O  \\nATOM    422  ND2 ASN A  53      31.703  -5.901 -36.141  0.50 14.99           N  \\nATOM    423  N   CYS A  54      28.636  -5.674 -31.027  1.00 15.19           N  \\nATOM    424  CA  CYS A  54      27.590  -4.959 -30.253  1.00 15.66           C  \\nATOM    425  C   CYS A  54      28.035  -3.621 -29.806  1.00 15.84           C  \\nATOM    426  O   CYS A  54      27.199  -2.775 -29.399  1.00 18.75           O  \\nATOM    427  CB  CYS A  54      27.165  -5.741 -29.019  1.00 14.40           C  \\nATOM    428  SG  CYS A  54      26.498  -7.306 -29.460  1.00 17.76           S  \\nATOM    429  N   ASN A  55      29.345  -3.411 -29.844  1.00 16.88           N  \\nATOM    430  CA  ASN A  55      29.936  -2.166 -29.332  1.00 17.33           C  \\nATOM    431  C   ASN A  55      29.426  -1.846 -27.898  1.00 17.29           C  \\nATOM    432  O   ASN A  55      29.010  -0.715 -27.600  1.00 18.40           O  \\nATOM    433  CB  ASN A  55      29.776  -1.019 -30.373  0.50 17.07           C  \\nATOM    434  CG  ASN A  55      30.752  -1.170 -31.559  0.50 16.33           C  \\nATOM    435  OD1 ASN A  55      30.405  -1.679 -32.645  0.50 15.28           O  \\nATOM    436  ND2 ASN A  55      32.004  -0.737 -31.339  0.50 17.57           N  \\nATOM    437  N   GLY A  56      29.441  -2.884 -27.041  1.00 17.17           N  \\nATOM    438  CA  GLY A  56      29.107  -2.757 -25.606  1.00 15.09           C  \\nATOM    439  C   GLY A  56      27.651  -2.511 -25.272  1.00 13.62           C  \\nATOM    440  O   GLY A  56      27.334  -2.204 -24.136  1.00 13.57           O  \\nATOM    441  N   VAL A  57      26.748  -2.702 -26.236  1.00 13.31           N  \\nATOM    442  CA  VAL A  57      25.346  -2.490 -26.026  1.00 13.69           C  \\nATOM    443  C   VAL A  57      24.535  -3.599 -26.695  1.00 12.83           C  \\nATOM    444  O   VAL A  57      24.850  -4.088 -27.791  1.00 12.42           O  \\nATOM    445  CB  VAL A  57      24.859  -1.101 -26.538  1.00 15.47           C  \\nATOM    446  CG1 VAL A  57      23.410  -0.916 -26.178  1.00 13.56           C  \\nATOM    447  CG2 VAL A  57      25.705   0.016 -25.893  1.00 14.18           C  \\nATOM    448  N   ILE A  58      23.511  -4.022 -25.982  1.00 13.06           N  \\nATOM    449  CA  ILE A  58      22.602  -5.022 -26.493  1.00 12.11           C  \\nATOM    450  C   ILE A  58      21.164  -4.584 -26.292  1.00 12.45           C  \\nATOM    451  O   ILE A  58      20.885  -3.604 -25.568  1.00 13.66           O  \\nATOM    452  CB  ILE A  58      22.798  -6.421 -25.791  1.00 10.33           C  \\nATOM    453  CG1 ILE A  58      22.427  -6.352 -24.291  1.00 12.49           C  \\nATOM    454  CG2 ILE A  58      24.250  -7.024 -26.093  1.00 12.03           C  \\nATOM    455  CD1 ILE A  58      22.387  -7.785 -23.587  1.00  9.93           C  \\nATOM    456  N   THR A  59      20.253  -5.328 -26.935  1.00 12.65           N  \\nATOM    457  CA  THR A  59      18.812  -5.151 -26.769  1.00 13.78           C  \\nATOM    458  C   THR A  59      18.222  -5.960 -25.596  1.00 14.47           C  \\nATOM    459  O   THR A  59      18.852  -6.901 -25.069  1.00 12.93           O  \\nATOM    460  CB  THR A  59      18.073  -5.512 -28.073  1.00 15.34           C  \\nATOM    461  OG1 THR A  59      18.130  -6.940 -28.269  1.00 14.31           O  \\nATOM    462  CG2 THR A  59      18.685  -4.675 -29.284  1.00 14.99           C  \\nATOM    463  N   LYS A  60      16.981  -5.603 -25.230  1.00 15.15           N  \\nATOM    464  CA  LYS A  60      16.272  -6.347 -24.200  1.00 15.55           C  \\nATOM    465  C   LYS A  60      16.150  -7.794 -24.630  1.00 15.96           C  \\nATOM    466  O   LYS A  60      16.365  -8.714 -23.817  1.00 15.57           O  \\nATOM    467  CB  LYS A  60      14.914  -5.735 -23.901  1.00 15.63           C  \\nATOM    468  CG  LYS A  60      14.212  -6.387 -22.697  1.00 14.56           C  \\nATOM    469  CD  LYS A  60      13.071  -5.601 -22.181  1.00 16.36           C  \\nATOM    470  CE  LYS A  60      12.125  -6.493 -21.386  1.00 21.55           C  \\nATOM    471  NZ  LYS A  60      10.958  -5.776 -20.764  0.50 24.65           N  \\nATOM    472  N   ASP A  61      15.803  -8.011 -25.912  1.00 16.94           N  \\nATOM    473  CA  ASP A  61      15.634  -9.389 -26.387  1.00 15.82           C  \\nATOM    474  C   ASP A  61      16.949 -10.149 -26.254  1.00 13.72           C  \\nATOM    475  O   ASP A  61      16.957 -11.323 -25.851  1.00 12.79           O  \\nATOM    476  CB  ASP A  61      15.230  -9.414 -27.845  1.00 16.67           C  \\nATOM    477  CG  ASP A  61      13.789  -9.038 -28.059  1.00 22.04           C  \\nATOM    478  OD1 ASP A  61      13.035  -8.672 -27.114  1.00 24.22           O  \\nATOM    479  OD2 ASP A  61      13.389  -9.094 -29.238  1.00 29.10           O  \\nATOM    480  N   GLU A  62      18.050  -9.502 -26.637  1.00 12.95           N  \\nATOM    481  CA  GLU A  62      19.371 -10.153 -26.539  1.00 13.13           C  \\nATOM    482  C   GLU A  62      19.666 -10.403 -25.071  1.00 11.06           C  \\nATOM    483  O   GLU A  62      20.270 -11.425 -24.758  1.00 10.10           O  \\nATOM    484  CB  GLU A  62      20.457  -9.318 -27.156  1.00 13.17           C  \\nATOM    485  CG  GLU A  62      20.188  -9.063 -28.645  1.00 16.48           C  \\nATOM    486  CD  GLU A  62      21.138  -8.105 -29.365  1.00 16.24           C  \\nATOM    487  OE1 GLU A  62      21.583  -7.055 -28.815  1.00 15.48           O  \\nATOM    488  OE2 GLU A  62      21.446  -8.420 -30.546  1.00 15.92           O  \\nATOM    489  N   ALA A  63      19.276  -9.464 -24.174  1.00 10.00           N  \\nATOM    490  CA  ALA A  63      19.507  -9.712 -22.738  1.00  8.92           C  \\nATOM    491  C   ALA A  63      18.773 -10.963 -22.260  1.00 10.79           C  \\nATOM    492  O   ALA A  63      19.393 -11.814 -21.590  1.00 11.01           O  \\nATOM    493  CB  ALA A  63      19.137  -8.549 -21.890  1.00 11.14           C  \\nATOM    494  N   GLU A  64      17.476 -11.074 -22.613  1.00 10.55           N  \\nATOM    495  CA  GLU A  64      16.654 -12.183 -22.194  1.00  9.59           C  \\nATOM    496  C   GLU A  64      17.154 -13.459 -22.831  1.00 10.50           C  \\nATOM    497  O   GLU A  64      17.118 -14.491 -22.222  1.00 10.93           O  \\nATOM    498  CB  GLU A  64      15.227 -11.879 -22.514  1.00 11.46           C  \\nATOM    499  CG  GLU A  64      14.650 -10.758 -21.559  1.00 12.95           C  \\nATOM    500  CD  GLU A  64      13.361 -10.129 -22.108  1.00 19.94           C  \\nATOM    501  OE1 GLU A  64      13.046 -10.395 -23.301  1.00 21.72           O  \\nATOM    502  OE2 GLU A  64      12.700  -9.325 -21.383  1.00 21.66           O  \\nATOM    503  N   LYS A  65      17.681 -13.388 -24.050  1.00  9.94           N  \\nATOM    504  CA  LYS A  65      18.256 -14.589 -24.614  1.00 10.27           C  \\nATOM    505  C   LYS A  65      19.452 -15.142 -23.818  1.00 10.44           C  \\nATOM    506  O   LYS A  65      19.510 -16.322 -23.500  1.00  8.28           O  \\nATOM    507  CB  LYS A  65      18.621 -14.364 -26.077  1.00 10.94           C  \\nATOM    508  CG  LYS A  65      19.120 -15.640 -26.661  1.00  9.62           C  \\nATOM    509  CD  LYS A  65      19.273 -15.438 -28.137  1.00 18.05           C  \\nATOM    510  CE  LYS A  65      19.717 -16.760 -28.669  1.00 20.75           C  \\nATOM    511  NZ  LYS A  65      19.257 -16.995 -30.009  1.00 22.44           N  \\nATOM    512  N   LEU A  66      20.416 -14.292 -23.518  1.00 11.27           N  \\nATOM    513  CA  LEU A  66      21.577 -14.664 -22.689  1.00 10.98           C  \\nATOM    514  C   LEU A  66      21.059 -15.219 -21.339  1.00 10.20           C  \\nATOM    515  O   LEU A  66      21.603 -16.197 -20.770  1.00  8.48           O  \\nATOM    516  CB  LEU A  66      22.431 -13.396 -22.435  1.00 11.43           C  \\nATOM    517  CG  LEU A  66      23.246 -12.880 -23.691  1.00 10.72           C  \\nATOM    518  CD1 LEU A  66      23.979 -11.568 -23.276  1.00 15.89           C  \\nATOM    519  CD2 LEU A  66      24.275 -13.877 -24.098  1.00 17.06           C  \\nATOM    520  N   PHE A  67      20.045 -14.540 -20.815  1.00 10.45           N  \\nATOM    521  CA  PHE A  67      19.483 -14.876 -19.493  1.00 11.64           C  \\nATOM    522  C   PHE A  67      18.889 -16.290 -19.535  1.00 11.66           C  \\nATOM    523  O   PHE A  67      19.155 -17.127 -18.662  1.00 12.35           O  \\nATOM    524  CB  PHE A  67      18.431 -13.838 -19.108  1.00 10.74           C  \\nATOM    525  CG  PHE A  67      17.788 -14.043 -17.704  1.00 13.29           C  \\nATOM    526  CD1 PHE A  67      18.546 -14.451 -16.611  1.00 11.59           C  \\nATOM    527  CD2 PHE A  67      16.417 -13.717 -17.508  1.00 14.66           C  \\nATOM    528  CE1 PHE A  67      18.012 -14.551 -15.339  1.00 13.70           C  \\nATOM    529  CE2 PHE A  67      15.844 -13.829 -16.240  1.00  8.46           C  \\nATOM    530  CZ  PHE A  67      16.641 -14.258 -15.165  1.00 14.46           C  \\nATOM    531  N   ASN A  68      18.036 -16.548 -20.516  1.00 11.62           N  \\nATOM    532  CA AASN A  68      17.541 -17.893 -20.780  0.50 11.70           C  \\nATOM    533  C   ASN A  68      18.665 -18.909 -20.772  1.00 11.78           C  \\nATOM    534  O   ASN A  68      18.594 -19.936 -20.142  1.00 13.01           O  \\nATOM    535  CB AASN A  68      16.820 -17.901 -22.136  0.50 11.53           C  \\nATOM    536  CG AASN A  68      15.372 -17.443 -22.038  0.50 12.13           C  \\nATOM    537  OD1AASN A  68      14.742 -17.598 -20.989  0.50 13.94           O  \\nATOM    538  ND2AASN A  68      14.830 -16.893 -23.139  0.50  8.69           N  \\nATOM    539  N   GLN A  69      19.727 -18.630 -21.556  1.00 11.81           N  \\nATOM    540  CA  GLN A  69      20.846 -19.553 -21.615  1.00 11.54           C  \\nATOM    541  C   GLN A  69      21.544 -19.724 -20.245  1.00 12.95           C  \\nATOM    542  O   GLN A  69      21.915 -20.861 -19.870  1.00 12.00           O  \\nATOM    543  CB  GLN A  69      21.893 -19.068 -22.615  1.00 12.40           C  \\nATOM    544  CG  GLN A  69      21.358 -19.052 -23.987  1.00  9.65           C  \\nATOM    545  CD  GLN A  69      22.297 -18.543 -25.025  1.00 15.93           C  \\nATOM    546  OE1 GLN A  69      22.004 -18.771 -26.199  1.00 14.26           O  \\nATOM    547  NE2 GLN A  69      23.447 -17.857 -24.639  1.00  7.52           N  \\nATOM    548  N   ASP A  70      21.682 -18.609 -19.520  1.00 12.06           N  \\nATOM    549  CA  ASP A  70      22.362 -18.581 -18.205  1.00 13.01           C  \\nATOM    550  C   ASP A  70      21.603 -19.373 -17.141  1.00 13.30           C  \\nATOM    551  O   ASP A  70      22.218 -20.158 -16.423  1.00 13.91           O  \\nATOM    552  CB  ASP A  70      22.656 -17.133 -17.741  1.00 12.93           C  \\nATOM    553  CG  ASP A  70      23.751 -16.485 -18.601  1.00 12.85           C  \\nATOM    554  OD1 ASP A  70      24.358 -17.190 -19.432  1.00 10.38           O  \\nATOM    555  OD2 ASP A  70      23.960 -15.296 -18.478  1.00 15.54           O  \\nATOM    556  N   VAL A  71      20.282 -19.221 -17.121  1.00 13.81           N  \\nATOM    557  CA  VAL A  71      19.446 -19.962 -16.161  1.00 14.32           C  \\nATOM    558  C   VAL A  71      19.507 -21.448 -16.479  1.00 13.97           C  \\nATOM    559  O   VAL A  71      19.792 -22.277 -15.617  1.00 13.66           O  \\nATOM    560  CB  VAL A  71      18.053 -19.421 -16.128  1.00 14.69           C  \\nATOM    561  CG1 VAL A  71      17.122 -20.311 -15.207  1.00 17.08           C  \\nATOM    562  CG2 VAL A  71      18.085 -17.953 -15.713  1.00 13.00           C  \\nATOM    563  N   ASP A  72      19.282 -21.772 -17.752  1.00 13.09           N  \\nATOM    564  CA AASP A  72      19.329 -23.119 -18.221  0.50 12.65           C  \\nATOM    565  C   ASP A  72      20.672 -23.728 -17.839  1.00 13.46           C  \\nATOM    566  O   ASP A  72      20.747 -24.804 -17.204  1.00 13.48           O  \\nATOM    567  CB AASP A  72      19.131 -23.105 -19.725  0.50 12.21           C  \\nATOM    568  CG AASP A  72      18.850 -24.456 -20.279  0.50 15.38           C  \\nATOM    569  OD1AASP A  72      18.703 -25.384 -19.461  0.50 14.46           O  \\nATOM    570  OD2AASP A  72      18.757 -24.584 -21.537  0.50 17.74           O  \\nATOM    571  N   ALA A  73      21.753 -23.034 -18.193  1.00 14.64           N  \\nATOM    572  CA  ALA A  73      23.066 -23.541 -17.803  1.00 16.63           C  \\nATOM    573  C   ALA A  73      23.235 -23.723 -16.280  1.00 15.99           C  \\nATOM    574  O   ALA A  73      23.863 -24.709 -15.861  1.00 16.82           O  \\nATOM    575  CB  ALA A  73      24.160 -22.645 -18.298  1.00 18.31           C  \\nATOM    576  N   ALA A  74      22.722 -22.800 -15.474  1.00 15.03           N  \\nATOM    577  CA  ALA A  74      22.859 -22.917 -13.996  1.00 14.63           C  \\nATOM    578  C   ALA A  74      22.242 -24.300 -13.543  1.00 14.71           C  \\nATOM    579  O   ALA A  74      22.849 -25.018 -12.790  1.00 15.11           O  \\nATOM    580  CB  ALA A  74      22.249 -21.719 -13.277  1.00 12.58           C  \\nATOM    581  N   VAL A  75      21.082 -24.664 -14.104  1.00 14.47           N  \\nATOM    582  CA  VAL A  75      20.326 -25.869 -13.679  1.00 15.31           C  \\nATOM    583  C   VAL A  75      21.103 -27.088 -14.098  1.00 16.89           C  \\nATOM    584  O   VAL A  75      21.338 -28.031 -13.300  1.00 16.13           O  \\nATOM    585  CB  VAL A  75      18.931 -25.940 -14.349  1.00 15.57           C  \\nATOM    586  CG1 VAL A  75      18.206 -27.287 -13.927  1.00 12.54           C  \\nATOM    587  CG2 VAL A  75      18.149 -24.774 -13.967  1.00 13.69           C  \\nATOM    588  N   ARG A  76      21.502 -27.052 -15.375  1.00 17.86           N  \\nATOM    589  CA  ARG A  76      22.166 -28.157 -15.972  1.00 18.45           C  \\nATOM    590  C   ARG A  76      23.495 -28.366 -15.231  1.00 18.97           C  \\nATOM    591  O   ARG A  76      23.886 -29.522 -15.042  1.00 18.42           O  \\nATOM    592  CB  ARG A  76      22.347 -27.987 -17.489  1.00 18.37           C  \\nATOM    593  CG  ARG A  76      21.030 -28.084 -18.280  1.00 21.02           C  \\nATOM    594  CD  ARG A  76      20.234 -29.467 -18.062  1.00 23.30           C  \\nATOM    595  NE  ARG A  76      20.859 -30.673 -18.667  1.00 24.78           N  \\nATOM    596  CZ  ARG A  76      20.870 -30.966 -19.981  1.00 24.82           C  \\nATOM    597  NH1 ARG A  76      20.309 -30.137 -20.881  1.00 23.72           N  \\nATOM    598  NH2 ARG A  76      21.417 -32.123 -20.383  1.00 21.50           N  \\nATOM    599  N   GLY A  77      24.123 -27.266 -14.783  1.00 17.52           N  \\nATOM    600  CA  GLY A  77      25.342 -27.371 -13.980  1.00 18.05           C  \\nATOM    601  C   GLY A  77      25.118 -28.051 -12.621  1.00 18.04           C  \\nATOM    602  O   GLY A  77      25.866 -28.978 -12.226  1.00 18.57           O  \\nATOM    603  N   ILE A  78      24.052 -27.641 -11.954  1.00 14.98           N  \\nATOM    604  CA  ILE A  78      23.681 -28.257 -10.693  1.00 15.97           C  \\nATOM    605  C   ILE A  78      23.470 -29.793 -10.905  1.00 16.71           C  \\nATOM    606  O   ILE A  78      24.019 -30.638 -10.151  1.00 16.13           O  \\nATOM    607  CB  ILE A  78      22.387 -27.607 -10.169  1.00 15.31           C  \\nATOM    608  CG1 ILE A  78      22.703 -26.258  -9.543  1.00 13.49           C  \\nATOM    609  CG2 ILE A  78      21.706 -28.544  -9.127  1.00 13.94           C  \\nATOM    610  CD1 ILE A  78      21.429 -25.340  -9.385  1.00 12.53           C  \\nATOM    611  N   LEU A  79      22.708 -30.137 -11.956  1.00 17.70           N  \\nATOM    612  CA  LEU A  79      22.342 -31.549 -12.249  1.00 18.29           C  \\nATOM    613  C   LEU A  79      23.567 -32.381 -12.593  1.00 19.08           C  \\nATOM    614  O   LEU A  79      23.559 -33.554 -12.312  1.00 20.14           O  \\nATOM    615  CB  LEU A  79      21.271 -31.636 -13.343  1.00 16.98           C  \\nATOM    616  CG  LEU A  79      19.942 -30.927 -13.080  1.00 18.32           C  \\nATOM    617  CD1 LEU A  79      18.969 -31.311 -14.196  1.00 20.14           C  \\nATOM    618  CD2 LEU A  79      19.316 -31.280 -11.687  1.00 14.70           C  \\nATOM    619  N   ARG A  80      24.639 -31.761 -13.106  1.00 20.00           N  \\nATOM    620  CA AARG A  80      25.922 -32.396 -13.482  0.50 21.00           C  \\nATOM    621  C   ARG A  80      26.840 -32.580 -12.270  1.00 21.27           C  \\nATOM    622  O   ARG A  80      27.798 -33.332 -12.294  1.00 21.73           O  \\nATOM    623  CB AARG A  80      26.679 -31.500 -14.496  0.50 20.88           C  \\nATOM    624  CG AARG A  80      26.661 -31.978 -15.932  0.50 21.97           C  \\nATOM    625  CD AARG A  80      27.524 -31.088 -16.870  0.50 21.53           C  \\nATOM    626  NE AARG A  80      26.737 -30.102 -17.636  0.50 22.62           N  \\nATOM    627  CZ AARG A  80      26.769 -28.788 -17.456  0.50 17.84           C  \\nATOM    628  NH1AARG A  80      27.557 -28.243 -16.540  0.50 20.02           N  \\nATOM    629  NH2AARG A  80      26.024 -28.018 -18.226  0.50 20.52           N  \\nATOM    630  N   ASN A  81      26.536 -31.869 -11.203  1.00 20.47           N  \\nATOM    631  CA  ASN A  81      27.380 -31.831 -10.030  1.00 18.36           C  \\nATOM    632  C   ASN A  81      26.972 -32.828  -8.945  1.00 16.30           C  \\nATOM    633  O   ASN A  81      25.905 -32.741  -8.334  1.00 16.06           O  \\nATOM    634  CB  ASN A  81      27.447 -30.405  -9.547  1.00 18.17           C  \\nATOM    635  CG  ASN A  81      28.455 -30.186  -8.428  1.00 18.04           C  \\nATOM    636  OD1 ASN A  81      28.467 -30.868  -7.416  1.00 18.71           O  \\nATOM    637  ND2 ASN A  81      29.217 -29.158  -8.563  1.00 16.25           N  \\nATOM    638  N   ALA A  82      27.848 -33.795  -8.728  1.00 16.51           N  \\nATOM    639  CA  ALA A  82      27.607 -34.849  -7.726  1.00 17.01           C  \\nATOM    640  C   ALA A  82      27.338 -34.313  -6.348  1.00 16.74           C  \\nATOM    641  O   ALA A  82      26.596 -34.947  -5.598  1.00 17.60           O  \\nATOM    642  CB  ALA A  82      28.775 -35.854  -7.667  1.00 16.45           C  \\nATOM    643  N   LYS A  83      28.010 -33.219  -5.938  1.00 17.87           N  \\nATOM    644  CA  LYS A  83      27.694 -32.636  -4.634  1.00 18.19           C  \\nATOM    645  C   LYS A  83      26.325 -31.918  -4.610  1.00 16.92           C  \\nATOM    646  O   LYS A  83      25.613 -31.921  -3.576  1.00 15.75           O  \\nATOM    647  CB  LYS A  83      28.770 -31.632  -4.191  1.00 21.02           C  \\nATOM    648  CG  LYS A  83      30.229 -32.140  -3.925  1.00 21.08           C  \\nATOM    649  CD  LYS A  83      30.272 -33.505  -3.162  1.00 25.06           C  \\nATOM    650  CE  LYS A  83      31.717 -34.072  -3.176  0.50 22.78           C  \\nATOM    651  NZ  LYS A  83      31.791 -35.494  -2.660  0.50 21.91           N  \\nATOM    652  N   LEU A  84      25.966 -31.254  -5.698  1.00 15.29           N  \\nATOM    653  CA  LEU A  84      24.751 -30.451  -5.706  1.00 13.58           C  \\nATOM    654  C   LEU A  84      23.466 -31.194  -6.041  1.00 12.55           C  \\nATOM    655  O   LEU A  84      22.428 -30.921  -5.469  1.00 11.18           O  \\nATOM    656  CB  LEU A  84      24.852 -29.184  -6.614  1.00 13.15           C  \\nATOM    657  CG  LEU A  84      26.065 -28.311  -6.204  1.00 15.68           C  \\nATOM    658  CD1 LEU A  84      26.191 -27.075  -7.087  1.00 16.32           C  \\nATOM    659  CD2 LEU A  84      25.995 -27.895  -4.722  1.00 14.11           C  \\nATOM    660  N   LYS A  85      23.515 -32.069  -7.022  1.00 13.06           N  \\nATOM    661  CA  LYS A  85      22.313 -32.704  -7.507  1.00 12.55           C  \\nATOM    662  C   LYS A  85      21.534 -33.396  -6.373  1.00 12.36           C  \\nATOM    663  O   LYS A  85      20.339 -33.227  -6.321  1.00 11.04           O  \\nATOM    664  CB  LYS A  85      22.673 -33.751  -8.539  1.00 12.48           C  \\nATOM    665  CG  LYS A  85      21.472 -34.332  -9.236  1.00 14.44           C  \\nATOM    666  CD  LYS A  85      21.993 -35.262 -10.277  1.00 15.12           C  \\nATOM    667  CE  LYS A  85      20.899 -35.812 -11.231  1.00 21.52           C  \\nATOM    668  NZ  LYS A  85      19.645 -36.159 -10.573  1.00 27.30           N  \\nATOM    669  N   PRO A  86      22.209 -34.190  -5.494  1.00 13.36           N  \\nATOM    670  CA  PRO A  86      21.280 -34.862  -4.535  1.00 15.21           C  \\nATOM    671  C   PRO A  86      20.522 -33.860  -3.645  1.00 13.25           C  \\nATOM    672  O   PRO A  86      19.345 -34.059  -3.320  1.00 16.43           O  \\nATOM    673  CB  PRO A  86      22.178 -35.800  -3.746  1.00 15.18           C  \\nATOM    674  CG  PRO A  86      23.555 -35.276  -3.923  1.00 17.57           C  \\nATOM    675  CD  PRO A  86      23.593 -34.585  -5.289  1.00 14.59           C  \\nATOM    676  N   VAL A  87      21.162 -32.734  -3.333  1.00 12.97           N  \\nATOM    677  CA  VAL A  87      20.538 -31.742  -2.481  1.00 11.84           C  \\nATOM    678  C   VAL A  87      19.384 -31.031  -3.215  1.00 10.58           C  \\nATOM    679  O   VAL A  87      18.285 -30.956  -2.712  1.00 11.03           O  \\nATOM    680  CB  VAL A  87      21.580 -30.741  -1.902  1.00 10.54           C  \\nATOM    681  CG1 VAL A  87      20.855 -29.791  -0.991  1.00  9.28           C  \\nATOM    682  CG2 VAL A  87      22.690 -31.532  -1.118  1.00  8.89           C  \\nATOM    683  N   TYR A  88      19.657 -30.592  -4.441  1.00 11.45           N  \\nATOM    684  CA  TYR A  88      18.735 -29.889  -5.249  1.00 11.18           C  \\nATOM    685  C   TYR A  88      17.515 -30.773  -5.493  1.00 10.20           C  \\nATOM    686  O   TYR A  88      16.374 -30.335  -5.311  1.00 11.44           O  \\nATOM    687  CB  TYR A  88      19.432 -29.606  -6.576  1.00 12.02           C  \\nATOM    688  CG  TYR A  88      18.583 -28.932  -7.610  1.00 13.71           C  \\nATOM    689  CD1 TYR A  88      18.417 -27.497  -7.637  1.00 14.57           C  \\nATOM    690  CD2 TYR A  88      17.953 -29.679  -8.563  1.00 18.15           C  \\nATOM    691  CE1 TYR A  88      17.638 -26.906  -8.601  1.00 14.02           C  \\nATOM    692  CE2 TYR A  88      17.170 -29.092  -9.528  1.00 16.88           C  \\nATOM    693  CZ  TYR A  88      17.019 -27.705  -9.560  1.00 18.17           C  \\nATOM    694  OH  TYR A  88      16.204 -27.127 -10.551  1.00 19.79           O  \\nATOM    695  N   ASP A  89      17.776 -32.049  -5.774  1.00 10.74           N  \\nATOM    696  CA  ASP A  89      16.674 -33.006  -6.065  1.00 12.94           C  \\nATOM    697  C   ASP A  89      15.829 -33.304  -4.823  1.00 12.44           C  \\nATOM    698  O   ASP A  89      14.621 -33.549  -4.925  1.00 13.04           O  \\nATOM    699  CB  ASP A  89      17.194 -34.257  -6.743  1.00 13.12           C  \\nATOM    700  CG  ASP A  89      17.303 -34.074  -8.236  1.00 13.91           C  \\nATOM    701  OD1 ASP A  89      16.892 -33.042  -8.766  1.00 15.52           O  \\nATOM    702  OD2 ASP A  89      17.756 -34.978  -8.898  1.00 21.38           O  \\nATOM    703  N   SER A  90      16.409 -33.106  -3.638  1.00 11.72           N  \\nATOM    704  CA  SER A  90      15.660 -33.220  -2.405  1.00 10.95           C  \\nATOM    705  C   SER A  90      14.740 -32.080  -2.107  1.00 10.69           C  \\nATOM    706  O   SER A  90      13.852 -32.248  -1.280  1.00 12.25           O  \\nATOM    707  CB  SER A  90      16.581 -33.479  -1.198  1.00 12.41           C  \\nATOM    708  OG  SER A  90      17.194 -32.313  -0.763  1.00 11.47           O  \\nATOM    709  N   LEU A  91      14.952 -30.915  -2.737  1.00  9.12           N  \\nATOM    710  CA  LEU A  91      14.219 -29.656  -2.481  1.00 10.06           C  \\nATOM    711  C   LEU A  91      12.899 -29.664  -3.226  1.00 11.73           C  \\nATOM    712  O   LEU A  91      12.775 -30.329  -4.247  1.00 12.75           O  \\nATOM    713  CB  LEU A  91      15.033 -28.380  -2.897  1.00  9.72           C  \\nATOM    714  CG  LEU A  91      16.397 -28.299  -2.172  1.00 10.30           C  \\nATOM    715  CD1 LEU A  91      17.225 -27.138  -2.620  1.00  9.12           C  \\nATOM    716  CD2 LEU A  91      16.127 -28.114  -0.655  1.00  7.71           C  \\nATOM    717  N   ASP A  92      11.901 -29.001  -2.645  1.00  9.35           N  \\nATOM    718  CA  ASP A  92      10.708 -28.583  -3.358  1.00 10.21           C  \\nATOM    719  C   ASP A  92      11.087 -27.496  -4.376  1.00 10.92           C  \\nATOM    720  O   ASP A  92      12.196 -26.961  -4.323  1.00  8.42           O  \\nATOM    721  CB  ASP A  92       9.779 -27.935  -2.344  1.00  9.21           C  \\nATOM    722  CG  ASP A  92      10.462 -26.795  -1.590  1.00 11.69           C  \\nATOM    723  OD1 ASP A  92      10.324 -25.664  -2.069  1.00 11.88           O  \\nATOM    724  OD2 ASP A  92      11.169 -27.048  -0.563  1.00  8.60           O  \\nATOM    725  N   ALA A  93      10.135 -27.105  -5.210  1.00 11.76           N  \\nATOM    726  CA  ALA A  93      10.459 -26.266  -6.361  1.00 11.76           C  \\nATOM    727  C   ALA A  93      10.819 -24.799  -5.973  1.00 12.10           C  \\nATOM    728  O   ALA A  93      11.607 -24.135  -6.660  1.00 13.45           O  \\nATOM    729  CB  ALA A  93       9.300 -26.308  -7.353  1.00 12.18           C  \\nATOM    730  N   VAL A  94      10.265 -24.324  -4.887  1.00 10.43           N  \\nATOM    731  CA  VAL A  94      10.563 -22.938  -4.494  1.00 10.59           C  \\nATOM    732  C   VAL A  94      12.014 -22.930  -3.997  1.00 11.05           C  \\nATOM    733  O   VAL A  94      12.808 -22.118  -4.468  1.00 10.69           O  \\nATOM    734  CB  VAL A  94       9.579 -22.389  -3.465  1.00 10.05           C  \\nATOM    735  CG1 VAL A  94       9.988 -20.922  -3.089  1.00 11.85           C  \\nATOM    736  CG2 VAL A  94       8.204 -22.392  -4.010  1.00 12.61           C  \\nATOM    737  N   ARG A  95      12.371 -23.875  -3.110  1.00  8.92           N  \\nATOM    738  CA  ARG A  95      13.760 -23.926  -2.600  1.00  9.62           C  \\nATOM    739  C   ARG A  95      14.742 -24.247  -3.756  1.00  9.72           C  \\nATOM    740  O   ARG A  95      15.857 -23.756  -3.748  1.00  8.79           O  \\nATOM    741  CB  ARG A  95      13.836 -24.966  -1.488  1.00 11.89           C  \\nATOM    742  CG  ARG A  95      13.277 -24.382  -0.244  1.00 10.80           C  \\nATOM    743  CD  ARG A  95      13.419 -25.320   0.867  1.00 11.93           C  \\nATOM    744  NE  ARG A  95      12.876 -24.781   2.106  1.00 11.55           N  \\nATOM    745  CZ  ARG A  95      11.655 -25.119   2.579  1.00 11.32           C  \\nATOM    746  NH1 ARG A  95      10.848 -25.885   1.879  1.00 12.81           N  \\nATOM    747  NH2 ARG A  95      11.211 -24.679   3.739  1.00 11.15           N  \\nATOM    748  N   ARG A  96      14.345 -25.065  -4.745  1.00  9.12           N  \\nATOM    749  CA AARG A  96      15.185 -25.273  -5.950  0.50  8.63           C  \\nATOM    750  C   ARG A  96      15.495 -23.932  -6.656  1.00  7.08           C  \\nATOM    751  O   ARG A  96      16.568 -23.755  -7.190  1.00  8.19           O  \\nATOM    752  CB AARG A  96      14.515 -26.228  -6.922  0.50  8.23           C  \\nATOM    753  CG AARG A  96      14.768 -27.705  -6.629  0.50  9.50           C  \\nATOM    754  CD AARG A  96      13.742 -28.551  -7.424  0.50 10.51           C  \\nATOM    755  NE AARG A  96      13.699 -29.939  -6.952  0.50  6.20           N  \\nATOM    756  CZ AARG A  96      13.153 -30.933  -7.645  0.50  6.83           C  \\nATOM    757  NH1AARG A  96      12.587 -30.642  -8.813  0.50  8.36           N  \\nATOM    758  NH2AARG A  96      13.157 -32.198  -7.165  0.50  5.25           N  \\nATOM    759  N   CYS A  97      14.542 -22.988  -6.653  1.00  8.69           N  \\nATOM    760  CA  CYS A  97      14.791 -21.653  -7.256  1.00  8.03           C  \\nATOM    761  C   CYS A  97      15.864 -20.875  -6.507  1.00  8.90           C  \\nATOM    762  O   CYS A  97      16.715 -20.228  -7.101  1.00 10.59           O  \\nATOM    763  CB  CYS A  97      13.521 -20.831  -7.294  1.00  7.91           C  \\nATOM    764  SG  CYS A  97      12.333 -21.430  -8.509  1.00 12.20           S  \\nATOM    765  N   ALA A  98      15.833 -21.000  -5.191  1.00  9.06           N  \\nATOM    766  CA  ALA A  98      16.902 -20.479  -4.327  1.00  8.80           C  \\nATOM    767  C   ALA A  98      18.283 -21.031  -4.676  1.00  8.73           C  \\nATOM    768  O   ALA A  98      19.300 -20.264  -4.795  1.00 10.13           O  \\nATOM    769  CB  ALA A  98      16.518 -20.760  -2.798  1.00  5.17           C  \\nATOM    770  N   ALA A  99      18.337 -22.353  -4.875  1.00  8.14           N  \\nATOM    771  CA  ALA A  99      19.545 -22.977  -5.293  1.00  9.46           C  \\nATOM    772  C   ALA A  99      20.063 -22.509  -6.628  1.00  8.72           C  \\nATOM    773  O   ALA A  99      21.288 -22.348  -6.795  1.00  9.14           O  \\nATOM    774  CB  ALA A  99      19.425 -24.530  -5.246  1.00  7.90           C  \\nATOM    775  N   ILE A 100      19.163 -22.333  -7.599  1.00 10.00           N  \\nATOM    776  CA  ILE A 100      19.533 -21.873  -8.925  1.00 11.25           C  \\nATOM    777  C   ILE A 100      20.058 -20.454  -8.854  1.00 10.47           C  \\nATOM    778  O   ILE A 100      21.064 -20.119  -9.507  1.00 10.91           O  \\nATOM    779  CB  ILE A 100      18.330 -21.935  -9.943  1.00 11.12           C  \\nATOM    780  CG1 ILE A 100      17.993 -23.392 -10.240  1.00 11.84           C  \\nATOM    781  CG2 ILE A 100      18.754 -21.252 -11.335  1.00 12.33           C  \\nATOM    782  CD1 ILE A 100      16.597 -23.601 -10.710  1.00 10.89           C  \\nATOM    783  N   ASN A 101      19.396 -19.643  -8.053  1.00  9.60           N  \\nATOM    784  CA  ASN A 101      19.780 -18.251  -7.858  1.00  9.45           C  \\nATOM    785  C   ASN A 101      21.190 -18.228  -7.300  1.00  9.85           C  \\nATOM    786  O   ASN A 101      22.059 -17.570  -7.844  1.00  7.36           O  \\nATOM    787  CB  ASN A 101      18.757 -17.616  -6.863  1.00  9.79           C  \\nATOM    788  CG  ASN A 101      18.899 -16.124  -6.756  1.00 11.86           C  \\nATOM    789  OD1 ASN A 101      20.001 -15.604  -6.532  1.00  8.31           O  \\nATOM    790  ND2 ASN A 101      17.803 -15.423  -6.923  1.00  8.50           N  \\nATOM    791  N   GLN A 102      21.432 -18.962  -6.208  1.00 10.12           N  \\nATOM    792  CA AGLN A 102      22.773 -19.016  -5.648  0.50 10.25           C  \\nATOM    793  C   GLN A 102      23.869 -19.402  -6.676  1.00 11.18           C  \\nATOM    794  O   GLN A 102      24.889 -18.719  -6.760  1.00 10.66           O  \\nATOM    795  CB AGLN A 102      22.835 -19.912  -4.426  0.50 10.09           C  \\nATOM    796  CG AGLN A 102      23.964 -19.497  -3.556  0.50  7.11           C  \\nATOM    797  CD AGLN A 102      24.309 -20.473  -2.472  0.50  6.99           C  \\nATOM    798  OE1AGLN A 102      24.096 -21.672  -2.600  0.50 12.92           O  \\nATOM    799  NE2AGLN A 102      24.931 -19.974  -1.427  0.50  7.77           N  \\nATOM    800  N   VAL A 103      23.649 -20.480  -7.431  1.00 10.87           N  \\nATOM    801  CA  VAL A 103      24.582 -20.956  -8.454  1.00 12.09           C  \\nATOM    802  C   VAL A 103      24.760 -19.919  -9.574  1.00 13.15           C  \\nATOM    803  O   VAL A 103      25.904 -19.673  -9.954  1.00 15.38           O  \\nATOM    804  CB  VAL A 103      24.236 -22.345  -8.974  1.00 13.34           C  \\nATOM    805  CG1 VAL A 103      25.129 -22.758 -10.142  1.00 14.34           C  \\nATOM    806  CG2 VAL A 103      24.491 -23.354  -7.840  1.00 11.72           C  \\nATOM    807  N   PHE A 104      23.663 -19.274 -10.027  1.00 12.45           N  \\nATOM    808  CA  PHE A 104      23.679 -18.145 -10.975  1.00 10.68           C  \\nATOM    809  C   PHE A 104      24.623 -17.044 -10.501  1.00 12.64           C  \\nATOM    810  O   PHE A 104      25.468 -16.555 -11.272  1.00 11.51           O  \\nATOM    811  CB  PHE A 104      22.257 -17.576 -11.180  1.00 11.00           C  \\nATOM    812  CG  PHE A 104      22.122 -16.652 -12.320  1.00  8.36           C  \\nATOM    813  CD1 PHE A 104      21.583 -17.092 -13.538  1.00 11.61           C  \\nATOM    814  CD2 PHE A 104      22.466 -15.320 -12.194  1.00  8.67           C  \\nATOM    815  CE1 PHE A 104      21.421 -16.175 -14.612  1.00  9.36           C  \\nATOM    816  CE2 PHE A 104      22.340 -14.431 -13.254  1.00 13.27           C  \\nATOM    817  CZ  PHE A 104      21.822 -14.865 -14.465  1.00 13.38           C  \\nATOM    818  N   GLN A 105      24.502 -16.649  -9.236  1.00 12.72           N  \\nATOM    819  CA  GLN A 105      25.319 -15.563  -8.728  1.00 15.86           C  \\nATOM    820  C   GLN A 105      26.751 -16.004  -8.510  1.00 17.35           C  \\nATOM    821  O   GLN A 105      27.691 -15.248  -8.830  1.00 17.48           O  \\nATOM    822  CB  GLN A 105      24.745 -15.058  -7.405  1.00 15.76           C  \\nATOM    823  CG  GLN A 105      25.578 -13.964  -6.774  1.00 14.27           C  \\nATOM    824  CD  GLN A 105      24.990 -13.465  -5.475  1.00 13.91           C  \\nATOM    825  OE1 GLN A 105      24.073 -14.069  -4.896  1.00 12.77           O  \\nATOM    826  NE2 GLN A 105      25.583 -12.422  -4.952  1.00 12.88           N  \\nATOM    827  N   MET A 106      26.911 -17.182  -7.927  1.00 16.86           N  \\nATOM    828  CA  MET A 106      28.168 -17.555  -7.304  1.00 19.93           C  \\nATOM    829  C   MET A 106      28.992 -18.528  -8.154  1.00 20.32           C  \\nATOM    830  O   MET A 106      30.235 -18.672  -7.947  1.00 19.35           O  \\nATOM    831  CB  MET A 106      27.924 -18.205  -5.934  1.00 18.60           C  \\nATOM    832  CG  MET A 106      27.386 -17.295  -4.850  1.00 21.31           C  \\nATOM    833  SD  MET A 106      27.471 -18.195  -3.241  1.00 24.31           S  \\nATOM    834  CE  MET A 106      29.254 -18.219  -3.077  1.00 21.71           C  \\nATOM    835  N   GLY A 107      28.305 -19.212  -9.072  1.00 19.11           N  \\nATOM    836  CA  GLY A 107      28.899 -20.293  -9.766  1.00 21.79           C  \\nATOM    837  C   GLY A 107      28.906 -21.551  -8.895  1.00 24.35           C  \\nATOM    838  O   GLY A 107      28.893 -21.551  -7.636  1.00 24.08           O  \\nATOM    839  N   GLU A 108      28.923 -22.661  -9.585  1.00 26.03           N  \\nATOM    840  CA  GLU A 108      28.804 -23.952  -8.941  1.00 27.70           C  \\nATOM    841  C   GLU A 108      30.069 -24.412  -8.154  1.00 28.39           C  \\nATOM    842  O   GLU A 108      29.948 -25.152  -7.168  1.00 30.18           O  \\nATOM    843  CB  GLU A 108      28.274 -24.891 -10.014  1.00 28.40           C  \\nATOM    844  CG  GLU A 108      28.614 -26.283  -9.905  1.00 30.02           C  \\nATOM    845  CD  GLU A 108      28.600 -26.900 -11.263  1.00 32.60           C  \\nATOM    846  OE1 GLU A 108      27.873 -26.389 -12.154  1.00 29.69           O  \\nATOM    847  OE2 GLU A 108      29.348 -27.896 -11.440  1.00 38.04           O  \\nATOM    848  N   THR A 109      31.250 -23.886  -8.486  0.50 27.47           N  \\nATOM    849  CA  THR A 109      32.414 -23.973  -7.598  0.50 26.96           C  \\nATOM    850  C   THR A 109      32.076 -23.316  -6.277  0.50 27.19           C  \\nATOM    851  O   THR A 109      32.057 -23.938  -5.197  0.50 26.88           O  \\nATOM    852  CB  THR A 109      33.597 -23.192  -8.190  0.50 26.80           C  \\nATOM    853  OG1 THR A 109      34.004 -23.821  -9.398  0.50 25.74           O  \\nATOM    854  CG2 THR A 109      34.768 -23.122  -7.219  0.50 26.77           C  \\nATOM    855  N   GLY A 110      31.829 -22.023  -6.405  1.00 27.36           N  \\nATOM    856  CA  GLY A 110      31.351 -21.143  -5.339  1.00 27.49           C  \\nATOM    857  C   GLY A 110      30.484 -21.680  -4.232  1.00 26.84           C  \\nATOM    858  O   GLY A 110      30.497 -21.143  -3.107  0.50 26.84           O  \\nATOM    859  N   VAL A 111      29.723 -22.732  -4.522  1.00 26.45           N  \\nATOM    860  CA  VAL A 111      28.772 -23.259  -3.532  1.00 26.47           C  \\nATOM    861  C   VAL A 111      28.878 -24.772  -3.281  1.00 25.98           C  \\nATOM    862  O   VAL A 111      28.406 -25.246  -2.229  1.00 26.31           O  \\nATOM    863  CB  VAL A 111      27.296 -22.956  -3.901  1.00 26.12           C  \\nATOM    864  CG1 VAL A 111      27.140 -21.547  -4.341  1.00 27.99           C  \\nATOM    865  CG2 VAL A 111      26.880 -23.853  -5.024  1.00 28.79           C  \\nATOM    866  N   ALA A 112      29.420 -25.534  -4.240  0.50 23.07           N  \\nATOM    867  CA  ALA A 112      29.546 -26.957  -4.037  0.50 21.62           C  \\nATOM    868  C   ALA A 112      30.355 -27.117  -2.781  0.50 20.44           C  \\nATOM    869  O   ALA A 112      30.278 -28.151  -2.113  0.50 19.71           O  \\nATOM    870  CB  ALA A 112      30.236 -27.620  -5.226  0.50 20.80           C  \\nATOM    871  N   GLY A 113      31.132 -26.077  -2.463  0.50 20.03           N  \\nATOM    872  CA  GLY A 113      31.970 -26.087  -1.267  0.50 20.03           C  \\nATOM    873  C   GLY A 113      31.194 -25.989   0.020  0.50 20.96           C  \\nATOM    874  O   GLY A 113      31.684 -26.463   1.023  0.50 21.46           O  \\nATOM    875  N   PHE A 114      29.986 -25.378  -0.004  0.50 21.11           N  \\nATOM    876  CA  PHE A 114      29.126 -25.087   1.195  1.00 20.65           C  \\nATOM    877  C   PHE A 114      28.571 -26.368   1.851  1.00 20.80           C  \\nATOM    878  O   PHE A 114      27.332 -26.502   2.086  1.00 20.43           O  \\nATOM    879  CB  PHE A 114      27.883 -24.332   0.771  1.00 20.55           C  \\nATOM    880  CG  PHE A 114      28.052 -22.879   0.652  1.00 21.45           C  \\nATOM    881  CD1 PHE A 114      29.220 -22.324   0.121  1.00 22.63           C  \\nATOM    882  CD2 PHE A 114      27.034 -22.035   1.068  1.00 21.02           C  \\nATOM    883  CE1 PHE A 114      29.361 -20.954  -0.006  1.00 22.30           C  \\nATOM    884  CE2 PHE A 114      27.166 -20.649   0.963  1.00 21.56           C  \\nATOM    885  CZ  PHE A 114      28.325 -20.124   0.398  1.00 17.62           C  \\nATOM    886  N   THR A 115      29.475 -27.271   2.169  1.00 20.48           N  \\nATOM    887  CA  THR A 115      29.179 -28.577   2.662  1.00 20.41           C  \\nATOM    888  C   THR A 115      28.165 -28.563   3.794  1.00 20.50           C  \\nATOM    889  O   THR A 115      27.201 -29.262   3.708  1.00 20.84           O  \\nATOM    890  CB  THR A 115      30.501 -29.245   3.078  1.00 20.89           C  \\nATOM    891  OG1 THR A 115      31.424 -29.087   1.987  1.00 23.33           O  \\nATOM    892  CG2 THR A 115      30.335 -30.728   3.347  1.00 18.66           C  \\nATOM    893  N   ASN A 116      28.371 -27.746   4.839  1.00 18.21           N  \\nATOM    894  CA  ASN A 116      27.469 -27.822   5.988  1.00 17.50           C  \\nATOM    895  C   ASN A 116      26.065 -27.346   5.652  1.00 13.78           C  \\nATOM    896  O   ASN A 116      25.105 -27.922   6.095  1.00 13.64           O  \\nATOM    897  CB  ASN A 116      28.106 -27.124   7.250  1.00 17.58           C  \\nATOM    898  CG  ASN A 116      29.504 -27.696   7.556  1.00 24.31           C  \\nATOM    899  OD1 ASN A 116      29.717 -28.907   7.411  1.00 29.56           O  \\nATOM    900  ND2 ASN A 116      30.470 -26.841   7.880  1.00 20.62           N  \\nATOM    901  N   SER A 117      25.952 -26.296   4.848  1.00 14.67           N  \\nATOM    902  CA  SER A 117      24.664 -25.789   4.444  1.00 12.70           C  \\nATOM    903  C   SER A 117      23.935 -26.835   3.589  1.00 13.95           C  \\nATOM    904  O   SER A 117      22.726 -26.999   3.751  1.00 11.13           O  \\nATOM    905  CB  SER A 117      24.749 -24.492   3.610  1.00 13.93           C  \\nATOM    906  OG  SER A 117      24.987 -23.395   4.421  1.00 16.91           O  \\nATOM    907  N   LEU A 118      24.680 -27.490   2.672  1.00 12.01           N  \\nATOM    908  CA  LEU A 118      24.140 -28.552   1.825  1.00 11.90           C  \\nATOM    909  C   LEU A 118      23.588 -29.687   2.682  1.00 12.14           C  \\nATOM    910  O   LEU A 118      22.451 -30.094   2.500  1.00 13.71           O  \\nATOM    911  CB  LEU A 118      25.203 -29.056   0.878  1.00 13.88           C  \\nATOM    912  CG  LEU A 118      25.595 -28.144  -0.309  1.00 12.09           C  \\nATOM    913  CD1 LEU A 118      26.960 -28.688  -0.910  1.00 13.87           C  \\nATOM    914  CD2 LEU A 118      24.462 -28.057  -1.353  1.00 16.87           C  \\nATOM    915  N   ARG A 119      24.386 -30.183   3.633  1.00 11.98           N  \\nATOM    916  CA  ARG A 119      23.886 -31.245   4.515  1.00 11.24           C  \\nATOM    917  C   ARG A 119      22.593 -30.742   5.202  1.00 11.22           C  \\nATOM    918  O   ARG A 119      21.570 -31.410   5.227  1.00  8.74           O  \\nATOM    919  CB  ARG A 119      24.954 -31.713   5.499  1.00 11.08           C  \\nATOM    920  CG  ARG A 119      24.600 -32.960   6.276  1.00 10.79           C  \\nATOM    921  CD  ARG A 119      25.527 -33.168   7.535  1.00 16.78           C  \\nATOM    922  NE  ARG A 119      25.625 -31.919   8.307  1.00 21.45           N  \\nATOM    923  CZ  ARG A 119      26.668 -31.083   8.324  1.00 29.04           C  \\nATOM    924  NH1 ARG A 119      26.543 -29.952   9.036  1.00 30.09           N  \\nATOM    925  NH2 ARG A 119      27.812 -31.376   7.662  1.00 25.65           N  \\nATOM    926  N   MET A 120      22.583 -29.522   5.725  1.00  9.62           N  \\nATOM    927  CA  MET A 120      21.418 -29.091   6.484  1.00 11.98           C  \\nATOM    928  C   MET A 120      20.134 -28.959   5.604  1.00 11.50           C  \\nATOM    929  O   MET A 120      19.002 -29.260   6.022  1.00  9.90           O  \\nATOM    930  CB  MET A 120      21.732 -27.796   7.222  1.00 11.41           C  \\nATOM    931  CG  MET A 120      22.750 -28.005   8.432  1.00 14.40           C  \\nATOM    932  SD  MET A 120      23.272 -26.344   8.882  1.00 16.62           S  \\nATOM    933  CE  MET A 120      24.670 -26.596   9.954  1.00 12.89           C  \\nATOM    934  N   LEU A 121      20.353 -28.505   4.371  1.00  8.95           N  \\nATOM    935  CA  LEU A 121      19.268 -28.354   3.446  1.00 10.95           C  \\nATOM    936  C   LEU A 121      18.731 -29.725   3.085  1.00  9.95           C  \\nATOM    937  O   LEU A 121      17.498 -29.930   3.091  1.00 10.79           O  \\nATOM    938  CB  LEU A 121      19.741 -27.609   2.202  1.00  9.04           C  \\nATOM    939  CG  LEU A 121      19.936 -26.112   2.375  1.00 11.90           C  \\nATOM    940  CD1 LEU A 121      20.679 -25.667   1.152  1.00 13.70           C  \\nATOM    941  CD2 LEU A 121      18.519 -25.356   2.591  1.00 11.27           C  \\nATOM    942  N   GLN A 122      19.663 -30.658   2.845  1.00 10.83           N  \\nATOM    943  CA  GLN A 122      19.257 -32.019   2.510  1.00 12.46           C  \\nATOM    944  C   GLN A 122      18.462 -32.615   3.648  1.00 12.54           C  \\nATOM    945  O   GLN A 122      17.474 -33.322   3.407  1.00 14.71           O  \\nATOM    946  CB  GLN A 122      20.407 -32.970   2.112  1.00 12.14           C  \\nATOM    947  CG  GLN A 122      19.742 -34.131   1.363  1.00 18.62           C  \\nATOM    948  CD  GLN A 122      20.606 -35.004   0.544  1.00 24.30           C  \\nATOM    949  OE1 GLN A 122      21.807 -34.819   0.482  1.00 27.12           O  \\nATOM    950  NE2 GLN A 122      19.977 -36.021  -0.112  1.00 29.08           N  \\nATOM    951  N   GLN A 123      18.911 -32.317   4.870  1.00 10.26           N  \\nATOM    952  CA  GLN A 123      18.208 -32.763   6.077  1.00 12.09           C  \\nATOM    953  C   GLN A 123      16.931 -32.015   6.330  1.00 10.49           C  \\nATOM    954  O   GLN A 123      16.200 -32.435   7.234  1.00 10.22           O  \\nATOM    955  CB  GLN A 123      19.106 -32.643   7.291  1.00 12.65           C  \\nATOM    956  CG  GLN A 123      20.318 -33.565   7.214  1.00 14.54           C  \\nATOM    957  CD  GLN A 123      21.269 -33.210   8.330  1.00 20.20           C  \\nATOM    958  OE1 GLN A 123      21.588 -32.053   8.569  1.00 23.54           O  \\nATOM    959  NE2 GLN A 123      21.653 -34.202   9.077  1.00 21.25           N  \\nATOM    960  N   LYS A 124      16.695 -30.900   5.600  1.00  8.77           N  \\nATOM    961  CA  LYS A 124      15.551 -30.031   5.775  1.00  9.57           C  \\nATOM    962  C   LYS A 124      15.472 -29.396   7.157  1.00 10.32           C  \\nATOM    963  O   LYS A 124      14.365 -29.133   7.691  1.00  8.99           O  \\nATOM    964  CB  LYS A 124      14.224 -30.803   5.496  1.00 10.84           C  \\nATOM    965  CG  LYS A 124      14.247 -31.517   4.127  1.00 10.03           C  \\nATOM    966  CD  LYS A 124      12.790 -31.774   3.726  1.00 14.12           C  \\nATOM    967  CE  LYS A 124      12.723 -32.564   2.425  1.00 13.03           C  \\nATOM    968  NZ  LYS A 124      13.073 -31.565   1.389  1.00 11.75           N  \\nATOM    969  N   ARG A 125      16.657 -29.170   7.740  1.00 11.02           N  \\nATOM    970  CA  ARG A 125      16.816 -28.343   8.953  1.00 11.19           C  \\nATOM    971  C   ARG A 125      16.901 -26.896   8.502  1.00 10.83           C  \\nATOM    972  O   ARG A 125      17.994 -26.317   8.404  1.00  9.31           O  \\nATOM    973  CB  ARG A 125      18.113 -28.762   9.609  1.00 11.56           C  \\nATOM    974  CG  ARG A 125      18.068 -30.214  10.018  1.00 14.82           C  \\nATOM    975  CD  ARG A 125      19.232 -30.566  10.788  1.00 17.30           C  \\nATOM    976  NE  ARG A 125      18.951 -31.901  11.151  1.00 22.23           N  \\nATOM    977  CZ  ARG A 125      19.706 -32.652  11.923  1.00 24.26           C  \\nATOM    978  NH1 ARG A 125      20.837 -32.148  12.432  1.00 24.36           N  \\nATOM    979  NH2 ARG A 125      19.320 -33.899  12.188  1.00 20.48           N  \\nATOM    980  N   TRP A 126      15.746 -26.337   8.198  1.00 11.50           N  \\nATOM    981  CA  TRP A 126      15.685 -25.119   7.433  1.00 11.31           C  \\nATOM    982  C   TRP A 126      16.275 -23.953   8.184  1.00 10.57           C  \\nATOM    983  O   TRP A 126      17.036 -23.165   7.611  1.00 10.01           O  \\nATOM    984  CB  TRP A 126      14.257 -24.802   7.082  1.00 10.69           C  \\nATOM    985  CG  TRP A 126      13.613 -25.871   6.252  1.00 10.97           C  \\nATOM    986  CD1 TRP A 126      12.358 -26.454   6.493  1.00 10.96           C  \\nATOM    987  CD2 TRP A 126      14.107 -26.481   5.039  1.00  8.18           C  \\nATOM    988  NE1 TRP A 126      12.061 -27.350   5.497  1.00  7.24           N  \\nATOM    989  CE2 TRP A 126      13.098 -27.377   4.586  1.00  7.76           C  \\nATOM    990  CE3 TRP A 126      15.290 -26.325   4.258  1.00  8.21           C  \\nATOM    991  CZ2 TRP A 126      13.245 -28.152   3.432  1.00  9.89           C  \\nATOM    992  CZ3 TRP A 126      15.435 -27.102   3.119  1.00 11.23           C  \\nATOM    993  CH2 TRP A 126      14.409 -28.011   2.710  1.00 12.37           C  \\nATOM    994  N   ASP A 127      15.907 -23.826   9.446  1.00 10.56           N  \\nATOM    995  CA  ASP A 127      16.403 -22.699  10.270  1.00 11.21           C  \\nATOM    996  C   ASP A 127      17.898 -22.777  10.490  1.00 12.06           C  \\nATOM    997  O   ASP A 127      18.585 -21.791  10.363  1.00 10.46           O  \\nATOM    998  CB  ASP A 127      15.672 -22.650  11.597  1.00 11.48           C  \\nATOM    999  CG  ASP A 127      14.328 -21.976  11.482  1.00 13.96           C  \\nATOM   1000  OD1 ASP A 127      13.703 -21.980  10.412  1.00 16.32           O  \\nATOM   1001  OD2 ASP A 127      13.868 -21.460  12.516  1.00 16.07           O  \\nATOM   1002  N   GLU A 128      18.406 -23.969  10.754  1.00 11.28           N  \\nATOM   1003  CA  GLU A 128      19.822 -24.183  10.852  1.00 10.84           C  \\nATOM   1004  C   GLU A 128      20.590 -23.895   9.551  1.00  9.95           C  \\nATOM   1005  O   GLU A 128      21.689 -23.278   9.605  1.00 10.56           O  \\nATOM   1006  CB  GLU A 128      20.059 -25.637  11.273  1.00 12.35           C  \\nATOM   1007  CG  GLU A 128      19.654 -25.892  12.743  1.00 14.29           C  \\nATOM   1008  CD  GLU A 128      19.518 -27.371  13.042  1.00 23.59           C  \\nATOM   1009  OE1 GLU A 128      20.571 -27.988  13.244  1.00 28.03           O  \\nATOM   1010  OE2 GLU A 128      18.393 -27.936  13.004  1.00 22.82           O  \\nATOM   1011  N   ALA A 129      20.059 -24.427   8.412  1.00  9.52           N  \\nATOM   1012  CA  ALA A 129      20.614 -24.150   7.121  1.00  8.08           C  \\nATOM   1013  C   ALA A 129      20.664 -22.660   6.960  1.00  9.66           C  \\nATOM   1014  O   ALA A 129      21.700 -22.135   6.548  1.00 10.47           O  \\nATOM   1015  CB  ALA A 129      19.752 -24.760   5.994  1.00  9.66           C  \\nATOM   1016  N   ALA A 130      19.540 -21.985   7.223  1.00  8.59           N  \\nATOM   1017  CA  ALA A 130      19.482 -20.501   7.031  1.00  9.27           C  \\nATOM   1018  C   ALA A 130      20.574 -19.751   7.877  1.00 11.55           C  \\nATOM   1019  O   ALA A 130      21.278 -18.835   7.360  1.00  9.06           O  \\nATOM   1020  CB  ALA A 130      18.069 -19.952   7.273  1.00 11.90           C  \\nATOM   1021  N   VAL A 131      20.722 -20.142   9.168  1.00  9.05           N  \\nATOM   1022  CA  VAL A 131      21.816 -19.616   9.977  1.00  9.62           C  \\nATOM   1023  C   VAL A 131      23.230 -19.906   9.329  1.00 10.40           C  \\nATOM   1024  O   VAL A 131      24.079 -18.998   9.194  1.00 11.43           O  \\nATOM   1025  CB  VAL A 131      21.717 -20.155  11.429  1.00  9.12           C  \\nATOM   1026  CG1 VAL A 131      23.013 -19.853  12.229  1.00  8.74           C  \\nATOM   1027  CG2 VAL A 131      20.483 -19.699  12.090  1.00  7.97           C  \\nATOM   1028  N   ASN A 132      23.468 -21.140   8.902  1.00  8.63           N  \\nATOM   1029  CA  ASN A 132      24.738 -21.475   8.298  1.00  9.35           C  \\nATOM   1030  C   ASN A 132      25.009 -20.676   6.989  1.00 10.31           C  \\nATOM   1031  O   ASN A 132      26.130 -20.183   6.752  1.00 11.19           O  \\nATOM   1032  CB  ASN A 132      24.859 -22.983   8.098  1.00 10.23           C  \\nATOM   1033  CG  ASN A 132      26.243 -23.402   7.634  1.00  9.00           C  \\nATOM   1034  OD1 ASN A 132      26.518 -23.466   6.454  1.00 10.71           O  \\nATOM   1035  ND2 ASN A 132      27.157 -23.579   8.585  1.00 12.84           N  \\nATOM   1036  N   LEU A 133      23.994 -20.536   6.159  1.00 10.56           N  \\nATOM   1037  CA  LEU A 133      24.183 -19.848   4.879  1.00 10.42           C  \\nATOM   1038  C   LEU A 133      24.692 -18.414   5.076  1.00 11.53           C  \\nATOM   1039  O   LEU A 133      25.361 -17.880   4.204  1.00  9.09           O  \\nATOM   1040  CB  LEU A 133      22.847 -19.880   4.082  1.00 12.47           C  \\nATOM   1041  CG  LEU A 133      22.511 -21.243   3.411  1.00 11.75           C  \\nATOM   1042  CD1 LEU A 133      21.076 -21.166   2.998  1.00 14.40           C  \\nATOM   1043  CD2 LEU A 133      23.509 -21.430   2.218  1.00 10.18           C  \\nATOM   1044  N   ALA A 134      24.244 -17.761   6.164  1.00  9.86           N  \\nATOM   1045  CA  ALA A 134      24.515 -16.342   6.376  1.00 11.13           C  \\nATOM   1046  C   ALA A 134      25.937 -16.135   6.860  1.00 10.53           C  \\nATOM   1047  O   ALA A 134      26.468 -15.019   6.763  1.00 13.61           O  \\nATOM   1048  CB  ALA A 134      23.540 -15.727   7.359  1.00  6.79           C  \\nATOM   1049  N   LYS A 135      26.521 -17.176   7.420  1.00 10.88           N  \\nATOM   1050  CA  LYS A 135      27.938 -17.210   7.824  1.00 12.29           C  \\nATOM   1051  C   LYS A 135      28.867 -17.317   6.622  1.00 10.63           C  \\nATOM   1052  O   LYS A 135      29.602 -18.282   6.499  1.00 11.00           O  \\nATOM   1053  CB  LYS A 135      28.212 -18.324   8.874  1.00 10.79           C  \\nATOM   1054  CG  LYS A 135      27.435 -18.174  10.139  1.00 12.16           C  \\nATOM   1055  CD  LYS A 135      27.536 -19.419  11.051  1.00 14.53           C  \\nATOM   1056  CE  LYS A 135      27.007 -19.193  12.427  0.50 14.32           C  \\nATOM   1057  NZ  LYS A 135      26.869 -20.512  13.183  0.50  7.91           N  \\nATOM   1058  N   SER A 136      28.856 -16.325   5.707  1.00  9.25           N  \\nATOM   1059  CA  SER A 136      29.565 -16.487   4.458  1.00  7.74           C  \\nATOM   1060  C   SER A 136      29.969 -15.082   3.896  1.00  8.32           C  \\nATOM   1061  O   SER A 136      29.318 -14.072   4.224  1.00  5.92           O  \\nATOM   1062  CB  SER A 136      28.638 -17.216   3.471  1.00  6.70           C  \\nATOM   1063  OG  SER A 136      27.458 -16.399   3.154  1.00  7.37           O  \\nATOM   1064  N   ARG A 137      31.044 -15.062   3.103  1.00  9.64           N  \\nATOM   1065  CA  ARG A 137      31.454 -13.895   2.335  1.00  9.18           C  \\nATOM   1066  C   ARG A 137      30.303 -13.518   1.444  1.00  9.66           C  \\nATOM   1067  O   ARG A 137      29.933 -12.374   1.386  1.00 10.57           O  \\nATOM   1068  CB  ARG A 137      32.711 -14.249   1.451  1.00  9.58           C  \\nATOM   1069  CG  ARG A 137      32.909 -13.118   0.439  1.00 13.45           C  \\nATOM   1070  CD  ARG A 137      34.044 -13.289  -0.494  1.00 19.25           C  \\nATOM   1071  NE  ARG A 137      34.397 -11.993  -1.080  1.00 21.02           N  \\nATOM   1072  CZ  ARG A 137      33.786 -11.405  -2.111  1.00 22.67           C  \\nATOM   1073  NH1 ARG A 137      32.706 -11.928  -2.706  1.00 20.47           N  \\nATOM   1074  NH2 ARG A 137      34.260 -10.228  -2.523  1.00 19.29           N  \\nATOM   1075  N   TRP A 138      29.623 -14.521   0.885  1.00 11.03           N  \\nATOM   1076  CA  TRP A 138      28.437 -14.316   0.098  1.00 11.24           C  \\nATOM   1077  C   TRP A 138      27.454 -13.347   0.764  1.00 11.55           C  \\nATOM   1078  O   TRP A 138      27.027 -12.314   0.188  1.00  9.89           O  \\nATOM   1079  CB  TRP A 138      27.744 -15.665  -0.146  1.00 10.91           C  \\nATOM   1080  CG  TRP A 138      26.395 -15.538  -0.873  1.00 12.27           C  \\nATOM   1081  CD1 TRP A 138      26.133 -14.884  -2.074  1.00 12.34           C  \\nATOM   1082  CD2 TRP A 138      25.152 -16.132  -0.462  1.00 12.34           C  \\nATOM   1083  NE1 TRP A 138      24.792 -15.025  -2.412  1.00 13.37           N  \\nATOM   1084  CE2 TRP A 138      24.172 -15.788  -1.447  1.00 11.66           C  \\nATOM   1085  CE3 TRP A 138      24.760 -16.870   0.682  1.00 12.11           C  \\nATOM   1086  CZ2 TRP A 138      22.839 -16.176  -1.361  1.00  8.21           C  \\nATOM   1087  CZ3 TRP A 138      23.431 -17.296   0.779  1.00 10.35           C  \\nATOM   1088  CH2 TRP A 138      22.456 -16.924  -0.247  1.00 14.47           C  \\nATOM   1089  N   TYR A 139      27.012 -13.737   1.949  1.00 11.34           N  \\nATOM   1090  CA  TYR A 139      26.026 -12.943   2.704  1.00 11.23           C  \\nATOM   1091  C   TYR A 139      26.575 -11.534   3.036  1.00  9.47           C  \\nATOM   1092  O   TYR A 139      25.897 -10.529   2.916  1.00 10.38           O  \\nATOM   1093  CB  TYR A 139      25.734 -13.665   4.018  1.00 12.01           C  \\nATOM   1094  CG  TYR A 139      24.693 -12.895   4.795  1.00 12.94           C  \\nATOM   1095  CD1 TYR A 139      23.352 -13.084   4.521  1.00 12.59           C  \\nATOM   1096  CD2 TYR A 139      25.067 -11.908   5.717  1.00 19.30           C  \\nATOM   1097  CE1 TYR A 139      22.350 -12.339   5.171  1.00 16.64           C  \\nATOM   1098  CE2 TYR A 139      24.090 -11.131   6.385  1.00 21.33           C  \\nATOM   1099  CZ  TYR A 139      22.735 -11.330   6.092  1.00 22.30           C  \\nATOM   1100  OH  TYR A 139      21.753 -10.556   6.754  1.00 24.45           O  \\nATOM   1101  N   ASN A 140      27.821 -11.472   3.470  1.00 10.13           N  \\nATOM   1102  CA  ASN A 140      28.380 -10.204   3.913  1.00  9.96           C  \\nATOM   1103  C   ASN A 140      28.594  -9.261   2.758  1.00  9.63           C  \\nATOM   1104  O   ASN A 140      28.414  -8.085   2.964  1.00 11.53           O  \\nATOM   1105  CB  ASN A 140      29.645 -10.332   4.669  1.00 11.45           C  \\nATOM   1106  CG  ASN A 140      29.432 -10.943   5.998  1.00 16.67           C  \\nATOM   1107  OD1 ASN A 140      29.744 -12.139   6.227  1.00 16.40           O  \\nATOM   1108  ND2 ASN A 140      28.909 -10.137   6.916  1.00 18.71           N  \\nATOM   1109  N   GLN A 141      28.875  -9.770   1.578  1.00  8.18           N  \\nATOM   1110  CA  GLN A 141      29.117  -8.909   0.408  1.00  9.37           C  \\nATOM   1111  C   GLN A 141      27.830  -8.437  -0.224  1.00  9.01           C  \\nATOM   1112  O   GLN A 141      27.732  -7.271  -0.722  1.00 10.59           O  \\nATOM   1113  CB  GLN A 141      30.005  -9.606  -0.625  1.00  9.35           C  \\nATOM   1114  CG  GLN A 141      31.492  -9.894  -0.173  1.00 13.96           C  \\nATOM   1115  CD  GLN A 141      32.188  -8.695   0.540  1.00 14.24           C  \\nATOM   1116  OE1 GLN A 141      32.719  -8.840   1.666  1.00 12.50           O  \\nATOM   1117  NE2 GLN A 141      32.211  -7.514  -0.159  1.00 14.10           N  \\nATOM   1118  N   THR A 142      26.849  -9.334  -0.296  1.00  7.29           N  \\nATOM   1119  CA  THR A 142      25.546  -8.991  -0.865  1.00  8.08           C  \\nATOM   1120  C   THR A 142      24.452  -9.380   0.129  1.00  8.74           C  \\nATOM   1121  O   THR A 142      23.703 -10.369  -0.122  1.00  8.55           O  \\nATOM   1122  CB  THR A 142      25.294  -9.708  -2.292  1.00  8.81           C  \\nATOM   1123  OG1 THR A 142      25.507 -11.144  -2.185  1.00 10.19           O  \\nATOM   1124  CG2 THR A 142      26.232  -9.107  -3.351  1.00  8.35           C  \\nATOM   1125  N   PRO A 143      24.377  -8.678   1.270  1.00 10.31           N  \\nATOM   1126  CA  PRO A 143      23.436  -9.139   2.315  1.00 10.69           C  \\nATOM   1127  C   PRO A 143      21.985  -9.007   1.926  1.00 11.77           C  \\nATOM   1128  O   PRO A 143      21.181  -9.846   2.330  1.00 13.01           O  \\nATOM   1129  CB  PRO A 143      23.788  -8.212   3.547  1.00 10.60           C  \\nATOM   1130  CG  PRO A 143      24.424  -7.016   2.957  1.00 12.90           C  \\nATOM   1131  CD  PRO A 143      25.164  -7.483   1.737  1.00  8.51           C  \\nATOM   1132  N   ASP A 144      21.612  -7.977   1.170  1.00  9.27           N  \\nATOM   1133  CA  ASP A 144      20.178  -7.796   0.924  1.00 10.93           C  \\nATOM   1134  C   ASP A 144      19.654  -8.950   0.028  1.00 10.02           C  \\nATOM   1135  O   ASP A 144      18.618  -9.573   0.307  1.00  6.13           O  \\nATOM   1136  CB  ASP A 144      19.906  -6.399   0.349  1.00 10.61           C  \\nATOM   1137  CG  ASP A 144      20.068  -5.269   1.463  1.00 12.99           C  \\nATOM   1138  OD1 ASP A 144      20.160  -5.566   2.651  1.00 19.65           O  \\nATOM   1139  OD2 ASP A 144      20.125  -4.131   1.116  1.00 20.27           O  \\nATOM   1140  N   ARG A 145      20.455  -9.241  -0.987  1.00  8.94           N  \\nATOM   1141  CA  ARG A 145      20.138 -10.336  -1.897  1.00 10.43           C  \\nATOM   1142  C   ARG A 145      20.211 -11.686  -1.194  1.00  9.22           C  \\nATOM   1143  O   ARG A 145      19.344 -12.520  -1.358  1.00  9.97           O  \\nATOM   1144  CB  ARG A 145      21.075 -10.344  -3.101  1.00 11.14           C  \\nATOM   1145  CG  ARG A 145      20.485 -11.315  -4.193  1.00 11.36           C  \\nATOM   1146  CD  ARG A 145      21.577 -11.846  -4.946  1.00 16.41           C  \\nATOM   1147  NE  ARG A 145      21.239 -12.817  -5.951  1.00 13.85           N  \\nATOM   1148  CZ  ARG A 145      21.814 -12.769  -7.147  1.00 14.83           C  \\nATOM   1149  NH1 ARG A 145      22.651 -11.764  -7.404  1.00 12.25           N  \\nATOM   1150  NH2 ARG A 145      21.533 -13.680  -8.075  1.00 10.86           N  \\nATOM   1151  N   ALA A 146      21.291 -11.919  -0.470  1.00 10.54           N  \\nATOM   1152  CA  ALA A 146      21.522 -13.175   0.219  1.00  8.75           C  \\nATOM   1153  C   ALA A 146      20.360 -13.395   1.244  1.00  9.60           C  \\nATOM   1154  O   ALA A 146      19.936 -14.521   1.446  1.00  9.60           O  \\nATOM   1155  CB  ALA A 146      22.907 -13.178   0.919  1.00 10.90           C  \\nATOM   1156  N   LYS A 147      19.917 -12.329   1.930  1.00  9.35           N  \\nATOM   1157  CA ALYS A 147      18.779 -12.380   2.883  0.50  9.70           C  \\nATOM   1158  C   LYS A 147      17.519 -12.911   2.181  1.00  9.60           C  \\nATOM   1159  O   LYS A 147      16.809 -13.793   2.698  1.00  9.12           O  \\nATOM   1160  CB ALYS A 147      18.498 -10.981   3.453  0.50 10.21           C  \\nATOM   1161  CG ALYS A 147      19.370 -10.521   4.638  0.50 11.22           C  \\nATOM   1162  CD ALYS A 147      19.328  -8.952   4.874  0.50  8.64           C  \\nATOM   1163  CE ALYS A 147      20.131  -8.574   6.141  0.50 13.87           C  \\nATOM   1164  NZ ALYS A 147      19.929  -7.106   6.677  0.50 15.97           N  \\nATOM   1165  N   ARG A 148      17.234 -12.360   0.991  1.00  8.37           N  \\nATOM   1166  CA  ARG A 148      16.067 -12.838   0.171  1.00  8.61           C  \\nATOM   1167  C   ARG A 148      16.233 -14.314  -0.189  1.00  8.22           C  \\nATOM   1168  O   ARG A 148      15.310 -15.053  -0.090  1.00  7.25           O  \\nATOM   1169  CB  ARG A 148      15.944 -12.055  -1.149  1.00  9.76           C  \\nATOM   1170  CG  ARG A 148      15.473 -10.615  -0.941  1.00  9.47           C  \\nATOM   1171  CD  ARG A 148      14.955 -10.035  -2.231  1.00 11.55           C  \\nATOM   1172  NE  ARG A 148      16.083  -9.749  -3.139  1.00  9.12           N  \\nATOM   1173  CZ  ARG A 148      16.892  -8.676  -3.062  1.00 12.62           C  \\nATOM   1174  NH1 ARG A 148      16.699  -7.768  -2.117  1.00 11.46           N  \\nATOM   1175  NH2 ARG A 148      17.889  -8.526  -3.954  1.00  7.84           N  \\nATOM   1176  N   VAL A 149      17.429 -14.750  -0.595  1.00  9.31           N  \\nATOM   1177  CA  VAL A 149      17.599 -16.132  -1.123  1.00  7.43           C  \\nATOM   1178  C   VAL A 149      17.571 -17.102   0.084  1.00  9.63           C  \\nATOM   1179  O   VAL A 149      16.940 -18.198   0.029  1.00 10.27           O  \\nATOM   1180  CB  VAL A 149      18.979 -16.230  -1.786  1.00  8.60           C  \\nATOM   1181  CG1 VAL A 149      19.371 -17.719  -2.042  1.00  8.06           C  \\nATOM   1182  CG2 VAL A 149      18.972 -15.349  -3.090  1.00  7.73           C  \\nATOM   1183  N   ILE A 150      18.222 -16.666   1.177  1.00  9.83           N  \\nATOM   1184  CA  ILE A 150      18.142 -17.430   2.438  1.00 11.08           C  \\nATOM   1185  C   ILE A 150      16.717 -17.579   2.946  1.00 11.53           C  \\nATOM   1186  O   ILE A 150      16.341 -18.670   3.374  1.00 11.02           O  \\nATOM   1187  CB  ILE A 150      19.001 -16.834   3.572  1.00  9.45           C  \\nATOM   1188  CG1 ILE A 150      20.472 -17.088   3.243  1.00  9.95           C  \\nATOM   1189  CG2 ILE A 150      18.662 -17.599   4.911  1.00  7.97           C  \\nATOM   1190  CD1 ILE A 150      21.574 -16.163   4.027  1.00 11.27           C  \\nATOM   1191  N   THR A 151      15.922 -16.493   2.904  1.00 11.17           N  \\nATOM   1192  CA  THR A 151      14.541 -16.602   3.335  1.00 12.11           C  \\nATOM   1193  C   THR A 151      13.775 -17.631   2.473  1.00 12.25           C  \\nATOM   1194  O   THR A 151      12.927 -18.371   3.012  1.00 12.54           O  \\nATOM   1195  CB  THR A 151      13.820 -15.220   3.345  1.00 10.72           C  \\nATOM   1196  OG1 THR A 151      14.267 -14.471   4.478  1.00 13.62           O  \\nATOM   1197  CG2 THR A 151      12.318 -15.372   3.444  1.00 12.40           C  \\nATOM   1198  N   THR A 152      14.103 -17.685   1.177  1.00 11.02           N  \\nATOM   1199  CA  THR A 152      13.506 -18.620   0.217  1.00 11.59           C  \\nATOM   1200  C   THR A 152      13.851 -20.065   0.626  1.00 11.09           C  \\nATOM   1201  O   THR A 152      12.947 -20.915   0.681  1.00 11.15           O  \\nATOM   1202  CB  THR A 152      13.853 -18.286  -1.255  1.00  9.65           C  \\nATOM   1203  OG1 THR A 152      13.605 -16.884  -1.448  1.00 14.45           O  \\nATOM   1204  CG2 THR A 152      12.966 -19.074  -2.258  1.00 12.97           C  \\nATOM   1205  N   PHE A 153      15.141 -20.340   0.843  1.00 11.82           N  \\nATOM   1206  CA  PHE A 153      15.577 -21.606   1.457  1.00 11.41           C  \\nATOM   1207  C   PHE A 153      14.940 -21.933   2.811  1.00 12.38           C  \\nATOM   1208  O   PHE A 153      14.699 -23.136   3.120  1.00 15.74           O  \\nATOM   1209  CB  PHE A 153      17.093 -21.612   1.686  1.00  9.49           C  \\nATOM   1210  CG  PHE A 153      17.896 -21.945   0.481  1.00 10.80           C  \\nATOM   1211  CD1 PHE A 153      18.895 -21.077   0.047  1.00 10.33           C  \\nATOM   1212  CD2 PHE A 153      17.724 -23.180  -0.204  1.00 12.15           C  \\nATOM   1213  CE1 PHE A 153      19.701 -21.401  -1.129  1.00 12.42           C  \\nATOM   1214  CE2 PHE A 153      18.488 -23.533  -1.280  1.00 10.32           C  \\nATOM   1215  CZ  PHE A 153      19.528 -22.634  -1.772  1.00 11.42           C  \\nATOM   1216  N   ARG A 154      14.761 -20.930   3.673  1.00 12.17           N  \\nATOM   1217  CA AARG A 154      14.271 -21.230   5.013  0.50 12.64           C  \\nATOM   1218  C   ARG A 154      12.793 -21.588   4.990  1.00 11.62           C  \\nATOM   1219  O   ARG A 154      12.371 -22.461   5.725  1.00 11.54           O  \\nATOM   1220  CB AARG A 154      14.542 -20.110   6.040  0.50 12.03           C  \\nATOM   1221  CG AARG A 154      14.117 -20.513   7.498  0.50 12.79           C  \\nATOM   1222  CD AARG A 154      14.231 -19.378   8.534  0.50 13.25           C  \\nATOM   1223  NE AARG A 154      13.509 -18.163   8.171  0.50 14.10           N  \\nATOM   1224  CZ AARG A 154      12.194 -17.951   8.305  0.50 14.90           C  \\nATOM   1225  NH1AARG A 154      11.388 -18.878   8.810  0.50 15.25           N  \\nATOM   1226  NH2AARG A 154      11.679 -16.787   7.913  0.50 13.29           N  \\nATOM   1227  N   THR A 155      12.024 -20.943   4.130  1.00 13.12           N  \\nATOM   1228  CA  THR A 155      10.549 -21.026   4.177  1.00 13.94           C  \\nATOM   1229  C   THR A 155       9.908 -21.788   3.051  1.00 14.32           C  \\nATOM   1230  O   THR A 155       8.759 -22.167   3.193  1.00 14.45           O  \\nATOM   1231  CB  THR A 155       9.926 -19.631   4.155  1.00 13.49           C  \\nATOM   1232  OG1 THR A 155      10.251 -19.012   2.897  1.00 15.46           O  \\nATOM   1233  CG2 THR A 155      10.442 -18.703   5.338  1.00 13.53           C  \\nATOM   1234  N   GLY A 156      10.633 -21.942   1.928  1.00 13.63           N  \\nATOM   1235  CA  GLY A 156      10.174 -22.488   0.706  1.00 11.64           C  \\nATOM   1236  C   GLY A 156       8.986 -21.701   0.179  1.00 11.69           C  \\nATOM   1237  O   GLY A 156       8.126 -22.272  -0.423  1.00 12.57           O  \\nATOM   1238  N   THR A 157       8.932 -20.389   0.508  1.00 10.85           N  \\nATOM   1239  CA  THR A 157       7.887 -19.474   0.069  1.00 11.02           C  \\nATOM   1240  C   THR A 157       8.547 -18.365  -0.713  1.00 10.31           C  \\nATOM   1241  O   THR A 157       9.768 -18.252  -0.731  1.00 10.58           O  \\nATOM   1242  CB  THR A 157       7.146 -18.727   1.212  1.00 11.05           C  \\nATOM   1243  OG1 THR A 157       8.033 -17.802   1.905  1.00 15.11           O  \\nATOM   1244  CG2 THR A 157       6.431 -19.683   2.169  1.00 11.04           C  \\nATOM   1245  N   TRP A 158       7.732 -17.524  -1.327  1.00 10.88           N  \\nATOM   1246  CA  TRP A 158       8.245 -16.440  -2.129  1.00 11.92           C  \\nATOM   1247  C   TRP A 158       8.123 -15.117  -1.329  1.00 11.55           C  \\nATOM   1248  O   TRP A 158       8.063 -14.022  -1.898  1.00 13.28           O  \\nATOM   1249  CB  TRP A 158       7.465 -16.359  -3.418  1.00 11.93           C  \\nATOM   1250  CG  TRP A 158       7.822 -17.470  -4.450  1.00 12.74           C  \\nATOM   1251  CD1 TRP A 158       6.994 -18.416  -4.898  1.00 13.77           C  \\nATOM   1252  CD2 TRP A 158       9.073 -17.655  -5.122  1.00 15.01           C  \\nATOM   1253  NE1 TRP A 158       7.622 -19.198  -5.820  1.00 14.08           N  \\nATOM   1254  CE2 TRP A 158       8.911 -18.751  -5.989  1.00 11.00           C  \\nATOM   1255  CE3 TRP A 158      10.330 -16.968  -5.102  1.00  8.15           C  \\nATOM   1256  CZ2 TRP A 158       9.950 -19.223  -6.823  1.00  9.81           C  \\nATOM   1257  CZ3 TRP A 158      11.341 -17.430  -5.941  1.00 10.77           C  \\nATOM   1258  CH2 TRP A 158      11.147 -18.560  -6.783  1.00 12.63           C  \\nATOM   1259  N   ASP A 159       8.038 -15.239  -0.012  1.00 11.99           N  \\nATOM   1260  CA  ASP A 159       7.758 -14.091   0.811  1.00 13.38           C  \\nATOM   1261  C   ASP A 159       8.791 -12.976   0.590  1.00 13.72           C  \\nATOM   1262  O   ASP A 159       8.420 -11.809   0.534  1.00 12.07           O  \\nATOM   1263  CB  ASP A 159       7.776 -14.531   2.270  1.00 14.76           C  \\nATOM   1264  CG  ASP A 159       6.512 -15.215   2.649  1.00 17.82           C  \\nATOM   1265  OD1 ASP A 159       5.653 -15.352   1.752  1.00 17.18           O  \\nATOM   1266  OD2 ASP A 159       6.407 -15.595   3.819  1.00 25.15           O  \\nATOM   1267  N   ALA A 160      10.058 -13.327   0.343  1.00 11.99           N  \\nATOM   1268  CA  ALA A 160      11.091 -12.278   0.261  1.00 11.80           C  \\nATOM   1269  C   ALA A 160      11.050 -11.555  -1.056  1.00 12.16           C  \\nATOM   1270  O   ALA A 160      11.750 -10.588  -1.236  1.00 11.65           O  \\nATOM   1271  CB  ALA A 160      12.506 -12.910   0.484  1.00 10.51           C  \\nATOM   1272  N   TYR A 161      10.216 -12.014  -2.004  1.00 14.08           N  \\nATOM   1273  CA  TYR A 161      10.175 -11.432  -3.346  1.00 14.80           C  \\nATOM   1274  C   TYR A 161       8.774 -10.867  -3.685  1.00 18.27           C  \\nATOM   1275  O   TYR A 161       8.596 -10.195  -4.714  1.00 18.91           O  \\nATOM   1276  CB  TYR A 161      10.570 -12.489  -4.414  1.00 14.76           C  \\nATOM   1277  CG  TYR A 161      12.018 -12.852  -4.385  1.00 12.49           C  \\nATOM   1278  CD1 TYR A 161      12.490 -13.904  -3.579  1.00 11.83           C  \\nATOM   1279  CD2 TYR A 161      12.928 -12.124  -5.112  1.00 10.82           C  \\nATOM   1280  CE1 TYR A 161      13.846 -14.213  -3.515  1.00 10.92           C  \\nATOM   1281  CE2 TYR A 161      14.310 -12.395  -5.068  1.00  8.48           C  \\nATOM   1282  CZ  TYR A 161      14.754 -13.457  -4.262  1.00 12.20           C  \\nATOM   1283  OH  TYR A 161      16.096 -13.759  -4.188  1.00 12.18           O  \\nATOM   1284  N   LYS A 162       7.786 -11.082  -2.826  0.50 18.90           N  \\nATOM   1285  CA  LYS A 162       6.443 -11.100  -3.371  0.50 19.75           C  \\nATOM   1286  C   LYS A 162       5.807  -9.773  -3.856  0.50 20.49           C  \\nATOM   1287  O   LYS A 162       5.003  -9.833  -4.775  0.50 20.39           O  \\nATOM   1288  CB  LYS A 162       5.494 -12.080  -2.646  0.50 19.69           C  \\nATOM   1289  CG  LYS A 162       5.382 -11.924  -1.136  0.50 20.78           C  \\nATOM   1290  CD  LYS A 162       4.505 -13.051  -0.566  0.50 19.81           C  \\nATOM   1291  CE  LYS A 162       3.705 -12.529   0.595  0.50 18.08           C  \\nATOM   1292  NZ  LYS A 162       2.689 -13.534   1.027  0.50 21.58           N  \\nATOM   1293  N   ASN A 163       6.166  -8.586  -3.355  0.50 21.64           N  \\nATOM   1294  CA  ASN A 163       6.996  -8.322  -2.203  0.50 23.15           C  \\nATOM   1295  C   ASN A 163       6.211  -7.397  -1.262  0.50 24.32           C  \\nATOM   1296  O   ASN A 163       6.241  -6.164  -1.395  0.50 24.66           O  \\nATOM   1297  CB  ASN A 163       8.345  -7.659  -2.590  0.50 24.09           C  \\nATOM   1298  CG  ASN A 163       8.264  -6.773  -3.876  0.50 24.52           C  \\nATOM   1299  OD1 ASN A 163       7.180  -6.439  -4.355  0.50 26.98           O  \\nATOM   1300  ND2 ASN A 163       9.430  -6.410  -4.423  0.50 24.01           N  \\nHETATM 1301  P   PO4 A 165      15.430 -26.507  12.040  0.70 13.01           P  \\nHETATM 1302  O1  PO4 A 165      16.899 -26.359  11.761  0.70  8.42           O  \\nHETATM 1303  O2  PO4 A 165      14.565 -25.571  11.281  0.70 12.47           O  \\nHETATM 1304  O3  PO4 A 165      15.071 -28.010  11.811  0.70 11.58           O  \\nHETATM 1305  O4  PO4 A 165      15.042 -26.318  13.543  0.70 11.36           O  \\nHETATM 1306  P   PO4 A 166      21.741   0.620 -18.648  0.50 20.49           P  \\nHETATM 1307  O1  PO4 A 166      23.073  -0.065 -18.917  0.50 18.04           O  \\nHETATM 1308  O2  PO4 A 166      21.958   2.010 -19.153  0.50 19.25           O  \\nHETATM 1309  O3  PO4 A 166      20.616  -0.014 -19.484  0.50 14.22           O  \\nHETATM 1310  O4  PO4 A 166      21.425   0.662 -17.127  0.50 15.77           O  \\nHETATM 1311  C1  BME A 168      14.857 -23.292 -16.062  0.50 25.86           C  \\nHETATM 1312  C2  BME A 168      13.406 -23.762 -15.870  0.50 26.27           C  \\nHETATM 1313  O1  BME A 168      15.611 -24.210 -16.904  0.50 24.55           O  \\nHETATM 1314  S2  BME A 168      13.082 -24.498 -14.218  0.50 29.32           S  \\nCONECT    1    2\\nCONECT    2    3    5\\nCONECT    3    4    4    9\\nCONECT    5    6\\nCONECT    6    7\\nCONECT    7    8\\nCONECT    9   10\\nCONECT   10   11   13\\nCONECT   11   12   12   17\\nCONECT   13   14\\nCONECT   14   15   15   16\\nCONECT   17   18\\nCONECT   18   19   21\\nCONECT   19   20   20   25\\nCONECT   21   22   23\\nCONECT   22   24\\nCONECT   25   26\\nCONECT   26   27   29\\nCONECT   27   28   28   36\\nCONECT   29   30\\nCONECT   30   31   31   32\\nCONECT   31   33\\nCONECT   32   34   34\\nCONECT   33   35   35\\nCONECT   34   35\\nCONECT   36   37\\nCONECT   37   38   40\\nCONECT   38   39   39   45\\nCONECT   40   41\\nCONECT   41   42\\nCONECT   42   43   43   44\\nCONECT   45   46\\nCONECT   46   47   49\\nCONECT   47   48   48   53\\nCONECT   49   50\\nCONECT   50   51\\nCONECT   51   52\\nCONECT   53   54\\nCONECT   54   55   57\\nCONECT   55   56   56   61\\nCONECT   57   58\\nCONECT   58   59   60\\nCONECT   61   62\\nCONECT   62   63   65\\nCONECT   63   64   64   72\\nCONECT   65   66\\nCONECT   66   67\\nCONECT   67   68\\nCONECT   68   69\\nCONECT   69   70   71   71\\nCONECT   72   73\\nCONECT   73   74   76\\nCONECT   74   75   75   80\\nCONECT   76   77   78\\nCONECT   77   79\\nCONECT   80   81\\nCONECT   81   82   84\\nCONECT   82   83   83   88\\nCONECT   84   85\\nCONECT   85   86   86   87\\nCONECT   88   89\\nCONECT   89   90   92\\nCONECT   90   91   91   97\\nCONECT   92   93\\nCONECT   93   94\\nCONECT   94   95   95   96\\nCONECT   97   98\\nCONECT   98   99\\nCONECT   99  100  100  101\\nCONECT  101  102\\nCONECT  102  103  105\\nCONECT  103  104  104  109\\nCONECT  105  106\\nCONECT  106  107  108\\nCONECT  109  110\\nCONECT  110  111  113\\nCONECT  111  112  112  120\\nCONECT  113  114\\nCONECT  114  115\\nCONECT  115  116\\nCONECT  116  117\\nCONECT  117  118  119  119\\nCONECT  120  121\\nCONECT  121  122  124\\nCONECT  122  123  123  128\\nCONECT  124  125\\nCONECT  125  126  127\\nCONECT  128  129\\nCONECT  129  130  132\\nCONECT  130  131  131  137\\nCONECT  132  133\\nCONECT  133  134\\nCONECT  134  135\\nCONECT  135  136\\nCONECT  137  138\\nCONECT  138  139  141\\nCONECT  139  140  140  145\\nCONECT  141  142  143\\nCONECT  142  144\\nCONECT  145  146\\nCONECT  146  147  149\\nCONECT  147  148  148  157\\nCONECT  149  150\\nCONECT  150  151  151  152\\nCONECT  151  153\\nCONECT  152  154  154\\nCONECT  153  155  155\\nCONECT  154  155\\nCONECT  155  156\\nCONECT  157  158\\nCONECT  158  159  161\\nCONECT  159  160  160  166\\nCONECT  161  162\\nCONECT  162  163\\nCONECT  163  164\\nCONECT  164  165\\nCONECT  166  167\\nCONECT  167  168  170\\nCONECT  168  169  169  174\\nCONECT  170  171\\nCONECT  171  172  172  173\\nCONECT  174  175\\nCONECT  175  176  178\\nCONECT  176  177  177  181\\nCONECT  178  179  180\\nCONECT  181  182\\nCONECT  182  183  185\\nCONECT  183  184  184  190\\nCONECT  185  186\\nCONECT  186  187\\nCONECT  187  188  188  189\\nCONECT  190  191\\nCONECT  191  192\\nCONECT  192  193  193  194\\nCONECT  194  195\\nCONECT  195  196  198\\nCONECT  196  197  197  206\\nCONECT  198  199\\nCONECT  199  200  200  201\\nCONECT  200  202\\nCONECT  201  203  203\\nCONECT  202  204  204\\nCONECT  203  204\\nCONECT  204  205\\nCONECT  206  207\\nCONECT  207  208  210\\nCONECT  208  209  209  218\\nCONECT  210  211\\nCONECT  211  212  212  213\\nCONECT  212  214\\nCONECT  213  215  215\\nCONECT  214  216  216\\nCONECT  215  216\\nCONECT  216  217\\nCONECT  218  219\\nCONECT  219  220  222\\nCONECT  220  221  221  225\\nCONECT  222  223  224\\nCONECT  225  226\\nCONECT  226  227  229\\nCONECT  227  228  228  233\\nCONECT  229  230  231\\nCONECT  230  232\\nCONECT  233  234\\nCONECT  234  235\\nCONECT  235  236  236  237\\nCONECT  237  238\\nCONECT  238  239  241\\nCONECT  239  240  240  245\\nCONECT  241  242  243\\nCONECT  242  244\\nCONECT  245  246\\nCONECT  246  247\\nCONECT  247  248  248  249\\nCONECT  249  250\\nCONECT  250  251  253\\nCONECT  251  252  252  259\\nCONECT  253  254\\nCONECT  254  255  256  256\\nCONECT  255  257  257\\nCONECT  256  258\\nCONECT  257  258\\nCONECT  259  260\\nCONECT  260  261  263\\nCONECT  261  262  262  267\\nCONECT  263  264\\nCONECT  264  265  266\\nCONECT  267  268\\nCONECT  268  269  271\\nCONECT  269  270  270  275\\nCONECT  271  272\\nCONECT  272  273  274\\nCONECT  275  276\\nCONECT  276  277  279\\nCONECT  277  278  278  282\\nCONECT  279  280  281\\nCONECT  282  283\\nCONECT  283  284  286\\nCONECT  284  285  285  291\\nCONECT  286  287\\nCONECT  287  288\\nCONECT  288  289\\nCONECT  289  290\\nCONECT  291  292\\nCONECT  292  293  295\\nCONECT  293  294  294  297\\nCONECT  295  296\\nCONECT  297  298  303\\nCONECT  298  299  301\\nCONECT  299  300  300  304\\nCONECT  301  302\\nCONECT  302  303\\nCONECT  304  305\\nCONECT  305  306  308\\nCONECT  306  307  307  312\\nCONECT  308  309\\nCONECT  309  310  310  311\\nCONECT  312  313\\nCONECT  313  314  316\\nCONECT  314  315  315  320\\nCONECT  316  317\\nCONECT  317  318  319\\nCONECT  320  321\\nCONECT  321  322  324\\nCONECT  322  323  323  328\\nCONECT  324  325\\nCONECT  325  326  326  327\\nCONECT  328  329\\nCONECT  329  330  332\\nCONECT  330  331  331  333\\nCONECT  333  334\\nCONECT  334  335  337\\nCONECT  335  336  336  338\\nCONECT  338  339\\nCONECT  339  340  342\\nCONECT  340  341  341  347\\nCONECT  342  343\\nCONECT  343  344\\nCONECT  344  345\\nCONECT  345  346\\nCONECT  347  348\\nCONECT  348  349  351\\nCONECT  349  350  350  353\\nCONECT  351  352\\nCONECT  353  354\\nCONECT  354  355  357\\nCONECT  355  356  356  362\\nCONECT  357  358\\nCONECT  358  359\\nCONECT  359  360  360  361\\nCONECT  362  363\\nCONECT  363  364  366\\nCONECT  364  365  365  370\\nCONECT  366  367\\nCONECT  367  368  369\\nCONECT  370  371\\nCONECT  371  372  374\\nCONECT  372  373  373  378\\nCONECT  374  375\\nCONECT  375  376  376  377\\nCONECT  378  379\\nCONECT  379  380  382\\nCONECT  380  381  381  387\\nCONECT  382  383\\nCONECT  383  384\\nCONECT  384  385\\nCONECT  385  386\\nCONECT  387  388\\nCONECT  388  389  391\\nCONECT  389  390  390  392\\nCONECT  392  393\\nCONECT  393  394  396\\nCONECT  394  395  395  400\\nCONECT  396  397  398\\nCONECT  397  399\\nCONECT  400  401\\nCONECT  401  402\\nCONECT  402  403  403  404\\nCONECT  404  405\\nCONECT  405  406  408\\nCONECT  406  407  407  415\\nCONECT  408  409\\nCONECT  409  410\\nCONECT  410  411\\nCONECT  411  412\\nCONECT  412  413  414  414\\nCONECT  415  416\\nCONECT  416  417  419\\nCONECT  417  418  418  423\\nCONECT  419  420\\nCONECT  420  421  421  422\\nCONECT  423  424\\nCONECT  424  425  427\\nCONECT  425  426  426  429\\nCONECT  427  428\\nCONECT  429  430\\nCONECT  430  431  433\\nCONECT  431  432  432  437\\nCONECT  433  434\\nCONECT  434  435  435  436\\nCONECT  437  438\\nCONECT  438  439\\nCONECT  439  440  440  441\\nCONECT  441  442\\nCONECT  442  443  445\\nCONECT  443  444  444  448\\nCONECT  445  446  447\\nCONECT  448  449\\nCONECT  449  450  452\\nCONECT  450  451  451  456\\nCONECT  452  453  454\\nCONECT  453  455\\nCONECT  456  457\\nCONECT  457  458  460\\nCONECT  458  459  459  463\\nCONECT  460  461  462\\nCONECT  463  464\\nCONECT  464  465  467\\nCONECT  465  466  466  472\\nCONECT  467  468\\nCONECT  468  469\\nCONECT  469  470\\nCONECT  470  471\\nCONECT  472  473\\nCONECT  473  474  476\\nCONECT  474  475  475  480\\nCONECT  476  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804\\nCONECT  802  803  803  807\\nCONECT  804  805  806\\nCONECT  807  808\\nCONECT  808  809  811\\nCONECT  809  810  810  818\\nCONECT  811  812\\nCONECT  812  813  813  814\\nCONECT  813  815\\nCONECT  814  816  816\\nCONECT  815  817  817\\nCONECT  816  817\\nCONECT  818  819\\nCONECT  819  820  822\\nCONECT  820  821  821  827\\nCONECT  822  823\\nCONECT  823  824\\nCONECT  824  825  825  826\\nCONECT  827  828\\nCONECT  828  829  831\\nCONECT  829  830  830  835\\nCONECT  831  832\\nCONECT  832  833\\nCONECT  833  834\\nCONECT  835  836\\nCONECT  836  837\\nCONECT  837  838  838  839\\nCONECT  839  840\\nCONECT  840  841  843\\nCONECT  841  842  842  848\\nCONECT  843  844\\nCONECT  844  845\\nCONECT  845  846  846  847\\nCONECT  848  849\\nCONECT  849  850  852\\nCONECT  850  851  851  855\\nCONECT  852  853  854\\nCONECT  855  856\\nCONECT  856  857\\nCONECT  857  858  858  859\\nCONECT  859  860\\nCONECT  860  861  863\\nCONECT  861  862  862  866\\nCONECT  863  864  865\\nCONECT  866  867\\nCONECT  867  868  870\\nCONECT  868  869  869  871\\nCONECT  871  872\\nCONECT  872  873\\nCONECT  873  874  874  875\\nCONECT  875  876\\nCONECT  876  877  879\\nCONECT  877  878  878  886\\nCONECT  879  880\\nCONECT  880  881  881  882\\nCONECT  881  883\\nCONECT  882  884  884\\nCONECT  883  885  885\\nCONECT  884  885\\nCONECT  886  887\\nCONECT  887  888  890\\nCONECT  888  889  889  893\\nCONECT  890  891  892\\nCONECT  893  894\\nCONECT  894  895  897\\nCONECT  895  896  896  901\\nCONECT  897  898\\nCONECT  898  899  899  900\\nCONECT  901  902\\nCONECT  902  903  905\\nCONECT  903  904  904  907\\nCONECT  905  906\\nCONECT  907  908\\nCONECT  908  909  911\\nCONECT  909  910  910  915\\nCONECT  911  912\\nCONECT  912  913  914\\nCONECT  915  916\\nCONECT  916  917  919\\nCONECT  917  918  918  926\\nCONECT  919  920\\nCONECT  920  921\\nCONECT  921  922\\nCONECT  922  923\\nCONECT  923  924  925  925\\nCONECT  926  927\\nCONECT  927  928  930\\nCONECT  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991\\nCONECT  990  992  992\\nCONECT  991  993  993\\nCONECT  992  993\\nCONECT  994  995\\nCONECT  995  996  998\\nCONECT  996  997  997 1002\\nCONECT  998  999\\nCONECT  999 1000 1000 1001\\nCONECT 1002 1003\\nCONECT 1003 1004 1006\\nCONECT 1004 1005 1005 1011\\nCONECT 1006 1007\\nCONECT 1007 1008\\nCONECT 1008 1009 1009 1010\\nCONECT 1011 1012\\nCONECT 1012 1013 1015\\nCONECT 1013 1014 1014 1016\\nCONECT 1016 1017\\nCONECT 1017 1018 1020\\nCONECT 1018 1019 1019 1021\\nCONECT 1021 1022\\nCONECT 1022 1023 1025\\nCONECT 1023 1024 1024 1028\\nCONECT 1025 1026 1027\\nCONECT 1028 1029\\nCONECT 1029 1030 1032\\nCONECT 1030 1031 1031 1036\\nCONECT 1032 1033\\nCONECT 1033 1034 1034 1035\\nCONECT 1036 1037\\nCONECT 1037 1038 1040\\nCONECT 1038 1039 1039 1044\\nCONECT 1040 1041\\nCONECT 1041 1042 1043\\nCONECT 1044 1045\\nCONECT 1045 1046 1048\\nCONECT 1046 1047 1047 1049\\nCONECT 1049 1050\\nCONECT 1050 1051 1053\\nCONECT 1051 1052 1052 1058\\nCONECT 1053 1054\\nCONECT 1054 1055\\nCONECT 1055 1056\\nCONECT 1056 1057\\nCONECT 1058 1059\\nCONECT 1059 1060 1062\\nCONECT 1060 1061 1061 1064\\nCONECT 1062 1063\\nCONECT 1064 1065\\nCONECT 1065 1066 1068\\nCONECT 1066 1067 1067 1075\\nCONECT 1068 1069\\nCONECT 1069 1070\\nCONECT 1070 1071\\nCONECT 1071 1072\\nCONECT 1072 1073 1074 1074\\nCONECT 1075 1076\\nCONECT 1076 1077 1079\\nCONECT 1077 1078 1078 1089\\nCONECT 1079 1080\\nCONECT 1080 1081 1081 1082\\nCONECT 1081 1083\\nCONECT 1082 1084 1084 1085\\nCONECT 1083 1084\\nCONECT 1084 1086\\nCONECT 1085 1087 1087\\nCONECT 1086 1088 1088\\nCONECT 1087 1088\\nCONECT 1089 1090\\nCONECT 1090 1091 1093\\nCONECT 1091 1092 1092 1101\\nCONECT 1093 1094\\nCONECT 1094 1095 1095 1096\\nCONECT 1095 1097\\nCONECT 1096 1098 1098\\nCONECT 1097 1099 1099\\nCONECT 1098 1099\\nCONECT 1099 1100\\nCONECT 1101 1102\\nCONECT 1102 1103 1105\\nCONECT 1103 1104 1104 1109\\nCONECT 1105 1106\\nCONECT 1106 1107 1107 1108\\nCONECT 1109 1110\\nCONECT 1110 1111 1113\\nCONECT 1111 1112 1112 1118\\nCONECT 1113 1114\\nCONECT 1114 1115\\nCONECT 1115 1116 1116 1117\\nCONECT 1118 1119\\nCONECT 1119 1120 1122\\nCONECT 1120 1121 1121 1125\\nCONECT 1122 1123 1124\\nCONECT 1125 1126 1131\\nCONECT 1126 1127 1129\\nCONECT 1127 1128 1128 1132\\nCONECT 1129 1130\\nCONECT 1130 1131\\nCONECT 1132 1133\\nCONECT 1133 1134 1136\\nCONECT 1134 1135 1135 1140\\nCONECT 1136 1137\\nCONECT 1137 1138 1138 1139\\nCONECT 1140 1141\\nCONECT 1141 1142 1144\\nCONECT 1142 1143 1143 1151\\nCONECT 1144 1145\\nCONECT 1145 1146\\nCONECT 1146 1147\\nCONECT 1147 1148\\nCONECT 1148 1149 1150 1150\\nCONECT 1151 1152\\nCONECT 1152 1153 1155\\nCONECT 1153 1154 1154 1156\\nCONECT 1156 1157\\nCONECT 1157 1158 1160\\nCONECT 1158 1159 1159 1165\\nCONECT 1160 1161\\nCONECT 1161 1162\\nCONECT 1162 1163\\nCONECT 1163 1164\\nCONECT 1165 1166\\nCONECT 1166 1167 1169\\nCONECT 1167 1168 1168 1176\\nCONECT 1169 1170\\nCONECT 1170 1171\\nCONECT 1171 1172\\nCONECT 1172 1173\\nCONECT 1173 1174 1175 1175\\nCONECT 1176 1177\\nCONECT 1177 1178 1180\\nCONECT 1178 1179 1179 1183\\nCONECT 1180 1181 1182\\nCONECT 1183 1184\\nCONECT 1184 1185 1187\\nCONECT 1185 1186 1186 1191\\nCONECT 1187 1188 1189\\nCONECT 1188 1190\\nCONECT 1191 1192\\nCONECT 1192 1193 1195\\nCONECT 1193 1194 1194 1198\\nCONECT 1195 1196 1197\\nCONECT 1198 1199\\nCONECT 1199 1200 1202\\nCONECT 1200 1201 1201 1205\\nCONECT 1202 1203 1204\\nCONECT 1205 1206\\nCONECT 1206 1207 1209\\nCONECT 1207 1208 1208 1216\\nCONECT 1209 1210\\nCONECT 1210 1211 1211 1212\\nCONECT 1211 1213\\nCONECT 1212 1214 1214\\nCONECT 1213 1215 1215\\nCONECT 1214 1215\\nCONECT 1216 1217\\nCONECT 1217 1218 1220\\nCONECT 1218 1219 1219 1227\\nCONECT 1220 1221\\nCONECT 1221 1222\\nCONECT 1222 1223\\nCONECT 1223 1224\\nCONECT 1224 1225 1226 1226\\nCONECT 1227 1228\\nCONECT 1228 1229 1231\\nCONECT 1229 1230 1230 1234\\nCONECT 1231 1232 1233\\nCONECT 1234 1235\\nCONECT 1235 1236\\nCONECT 1236 1237 1237 1238\\nCONECT 1238 1239\\nCONECT 1239 1240 1242\\nCONECT 1240 1241 1241 1245\\nCONECT 1242 1243 1244\\nCONECT 1245 1246\\nCONECT 1246 1247 1249\\nCONECT 1247 1248 1248 1259\\nCONECT 1249 1250\\nCONECT 1250 1251 1251 1252\\nCONECT 1251 1253\\nCONECT 1252 1254 1254 1255\\nCONECT 1253 1254\\nCONECT 1254 1256\\nCONECT 1255 1257 1257\\nCONECT 1256 1258 1258\\nCONECT 1257 1258\\nCONECT 1259 1260\\nCONECT 1260 1261 1263\\nCONECT 1261 1262 1262 1267\\nCONECT 1263 1264\\nCONECT 1264 1265 1265 1266\\nCONECT 1267 1268\\nCONECT 1268 1269 1271\\nCONECT 1269 1270 1270 1272\\nCONECT 1272 1273\\nCONECT 1273 1274 1276\\nCONECT 1274 1275 1275 1284\\nCONECT 1276 1277\\nCONECT 1277 1278 1278 1279\\nCONECT 1278 1280\\nCONECT 1279 1281 1281\\nCONECT 1280 1282 1282\\nCONECT 1281 1282\\nCONECT 1282 1283\\nCONECT 1284 1285\\nCONECT 1285 1286 1288\\nCONECT 1286 1287 1287 1293\\nCONECT 1288 1289\\nCONECT 1289 1290\\nCONECT 1290 1291\\nCONECT 1291 1292\\nCONECT 1293 1294\\nCONECT 1294 1295 1297\\nCONECT 1295 1296 1296\\nCONECT 1297 1298\\nCONECT 1298 1299 1299 1300\\nCONECT 1301 1302 1303 1304 1305\\nCONECT 1306 1307 1308 1309 1310\\nCONECT 1311 1312 1313\\nCONECT 1312 1314\\nEND\\n\",\"pdb\");\n",
       "\tviewer_1678688749878809.addModel(\"COMPND    Docked.pdb\\nHETATM    1  C1  UNL     1      23.135 -25.209  -4.845  1.00  0.00           C  \\nHETATM    2  C2  UNL     1      22.822 -26.099  -5.878  1.00  0.00           C  \\nHETATM    3  C3  UNL     1      22.038 -27.229  -5.615  1.00  0.00           C  \\nHETATM    4  C4  UNL     1      21.569 -27.468  -4.319  1.00  0.00           C  \\nHETATM    5  C5  UNL     1      21.883 -26.578  -3.286  1.00  0.00           C  \\nHETATM    6  C6  UNL     1      22.666 -25.449  -3.549  1.00  0.00           C  \\nCONECT    1    2    2    6\\nCONECT    2    3\\nCONECT    3    4    4\\nCONECT    4    5\\nCONECT    5    6    6\\nEND\\n\");\n",
       "\tviewer_1678688749878809.setStyle({\"resn\": [\"DMS\", \"UNL\", \"SO4\", \"LIG\", \"HOH\", \"Cl\"], \"invert\": 1},{\"cartoon\": {\"colorscheme\": \"ssPyMol\"}});\n",
       "\tviewer_1678688749878809.addSurface(1,{\"opacity\": 0.7, \"color\": \"white\"},{\"resn\": [\"DMS\", \"UNL\", \"SO4\", \"LIG\", \"HOH\", \"Cl\"], \"invert\": 1});\n",
       "\tviewer_1678688749878809.setStyle({\"resi\": \"132\"},{\"stick\": {\"colorscheme\": \"blueCarbon\"}});\n",
       "\tviewer_1678688749878809.setStyle({\"resi\": \"147\"},{\"stick\": {\"colorscheme\": \"blueCarbon\"}});\n",
       "\tviewer_1678688749878809.setStyle({\"resi\": \"311\"},{\"stick\": {\"colorscheme\": \"blueCarbon\"}});\n",
       "\tviewer_1678688749878809.setStyle({\"resn\": \"LIG\"},{\"stick\": {\"colorscheme\": \"whiteCarbon\", \"radius\": 0.1}});\n",
       "\tviewer_1678688749878809.setStyle({\"resn\": \"UNL\"},{\"stick\": {\"colorscheme\": \"greenCarbon\"}});\n",
       "\tviewer_1678688749878809.zoomTo({\"resn\": \"UNL\"});\n",
       "viewer_1678688749878809.render();\n",
       "});\n",
       "</script>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    },
    {
     "data": {
      "text/plain": [
       "<py3Dmol.view at 0x7f96eb44dcd0>"
      ]
     },
     "execution_count": 19,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "#@title Show the docked pocket (zoom in)\n",
    "receptor = Chem.MolFromPDBFile(TargetProtein)\n",
    "DrawDocking(receptor,mols[0])"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {
    "tags": []
   },
   "source": [
    "# 2D interaction diagram, test for now, this function might be not always successful"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 20,
   "metadata": {},
   "outputs": [],
   "source": [
    "import MDAnalysis as mda\n",
    "import prolif as plf"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## Merge docked ligand with receptor into a single file"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "### Merge top pose 1 with protein"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 21,
   "metadata": {},
   "outputs": [
    {
     "name": "stderr",
     "output_type": "stream",
     "text": [
      "/srv/conda/envs/notebook/lib/python3.8/site-packages/MDAnalysis/coordinates/PDB.py:753: UserWarning: Unit cell dimensions not found. CRYST1 record set to unitary values.\n",
      "  warnings.warn(\"Unit cell dimensions not found. \"\n",
      "/srv/conda/envs/notebook/lib/python3.8/site-packages/MDAnalysis/coordinates/PDB.py:1129: UserWarning: Found no information for attr: 'formalcharges' Using default value of '0'\n",
      "  warnings.warn(\"Found no information for attr: '{}'\"\n",
      "/srv/conda/envs/notebook/lib/python3.8/site-packages/MDAnalysis/coordinates/PDB.py:1176: UserWarning: Found missing chainIDs. Corresponding atoms will use value of 'X'\n",
      "  warnings.warn(\"Found missing chainIDs.\"\n"
     ]
    }
   ],
   "source": [
    "import MDAnalysis as mda\n",
    "\n",
    "# Load receptor and ligand PDB files into MDAnalysis Universe objects\n",
    "receptor = mda.Universe(\"receptor.pdb\")\n",
    "ligand = mda.Universe(\"Docked1.pdb\")\n",
    "\n",
    "# Combine the receptor and ligand into a single Universe\n",
    "combined = mda.Merge(receptor.atoms, ligand.atoms)\n",
    "\n",
    "# Write the combined structure to a new PDB file\n",
    "with mda.Writer(\"combined1.pdb\") as W:\n",
    "    W.write(combined.atoms)\n"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "### Merge top pose 2 with protein"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 22,
   "metadata": {},
   "outputs": [],
   "source": [
    "import MDAnalysis as mda\n",
    "\n",
    "# Load receptor and ligand PDB files into MDAnalysis Universe objects\n",
    "receptor = mda.Universe(\"receptor.pdb\")\n",
    "ligand = mda.Universe(\"Docked2.pdb\")\n",
    "\n",
    "# Combine the receptor and ligand into a single Universe\n",
    "combined = mda.Merge(receptor.atoms, ligand.atoms)\n",
    "\n",
    "# Write the combined structure to a new PDB file\n",
    "with mda.Writer(\"combined2.pdb\") as W:\n",
    "    W.write(combined.atoms)"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "### Merge top pose 3 with protein"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 23,
   "metadata": {},
   "outputs": [],
   "source": [
    "import MDAnalysis as mda\n",
    "\n",
    "# Load receptor and ligand PDB files into MDAnalysis Universe objects\n",
    "receptor = mda.Universe(\"receptor.pdb\")\n",
    "ligand = mda.Universe(\"Docked3.pdb\")\n",
    "\n",
    "# Combine the receptor and ligand into a single Universe\n",
    "combined = mda.Merge(receptor.atoms, ligand.atoms)\n",
    "\n",
    "# Write the combined structure to a new PDB file\n",
    "with mda.Writer(\"combined3.pdb\") as W:\n",
    "    W.write(combined.atoms)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 24,
   "metadata": {},
   "outputs": [
    {
     "name": "stderr",
     "output_type": "stream",
     "text": [
      "/srv/conda/envs/notebook/lib/python3.8/site-packages/MDAnalysis/coordinates/PDB.py:432: UserWarning: 1 A^3 CRYST1 record, this is usually a placeholder. Unit cell dimensions will be set to None.\n",
      "  warnings.warn(\"1 A^3 CRYST1 record,\"\n"
     ]
    }
   ],
   "source": [
    "import numpy as np\n",
    "# load topology\n",
    "u = mda.Universe('combined2.pdb')\n",
    "lig = u.select_atoms(\"resname UNL\")\n",
    "prot = u.select_atoms(\"protein\")"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "### Clean up the ligand before 2D diagram"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 25,
   "metadata": {},
   "outputs": [
    {
     "name": "stderr",
     "output_type": "stream",
     "text": [
      "/srv/conda/envs/notebook/lib/python3.8/site-packages/MDAnalysis/converters/RDKit.py:451: UserWarning: No `bonds` attribute in this AtomGroup. Guessing bonds based on atoms coordinates\n",
      "  warnings.warn(\n"
     ]
    },
    {
     "data": {
      "image/png": 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\n",
      "text/plain": [
       "<PIL.PngImagePlugin.PngImageFile image mode=RGB size=400x200>"
      ]
     },
     "execution_count": 25,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "from rdkit import Chem\n",
    "from rdkit.Chem import Draw\n",
    "\n",
    "# create a molecule from the MDAnalysis selection\n",
    "lmol = plf.Molecule.from_mda(lig)\n",
    "# cleanup before drawing\n",
    "mol = Chem.RemoveHs(lmol)\n",
    "mol.RemoveAllConformers()\n",
    "Draw.MolToImage(mol, size=(400, 200))"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## Generate 2D interaction diagram"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 26,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "application/vnd.jupyter.widget-view+json": {
       "model_id": "41ceddb068df43d8b1cb0ce86fe9f93d",
       "version_major": 2,
       "version_minor": 0
      },
      "text/plain": [
       "  0%|          | 0/1 [00:00<?, ?it/s]"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    },
    {
     "name": "stderr",
     "output_type": "stream",
     "text": [
      "/srv/conda/envs/notebook/lib/python3.8/site-packages/MDAnalysis/coordinates/PDB.py:432: UserWarning: 1 A^3 CRYST1 record, this is usually a placeholder. Unit cell dimensions will be set to None.\n",
      "  warnings.warn(\"1 A^3 CRYST1 record,\"\n",
      "/srv/conda/envs/notebook/lib/python3.8/site-packages/MDAnalysis/coordinates/PDB.py:432: UserWarning: 1 A^3 CRYST1 record, this is usually a placeholder. Unit cell dimensions will be set to None.\n",
      "  warnings.warn(\"1 A^3 CRYST1 record,\"\n",
      "/srv/conda/envs/notebook/lib/python3.8/site-packages/MDAnalysis/coordinates/PDB.py:432: UserWarning: 1 A^3 CRYST1 record, this is usually a placeholder. Unit cell dimensions will be set to None.\n",
      "  warnings.warn(\"1 A^3 CRYST1 record,\"\n",
      "/srv/conda/envs/notebook/lib/python3.8/site-packages/MDAnalysis/coordinates/PDB.py:432: UserWarning: 1 A^3 CRYST1 record, this is usually a placeholder. Unit cell dimensions will be set to None.\n",
      "  warnings.warn(\"1 A^3 CRYST1 record,\"\n",
      "/srv/conda/envs/notebook/lib/python3.8/site-packages/MDAnalysis/coordinates/PDB.py:432: UserWarning: 1 A^3 CRYST1 record, this is usually a placeholder. Unit cell dimensions will be set to None.\n",
      "  warnings.warn(\"1 A^3 CRYST1 record,\"\n",
      "/srv/conda/envs/notebook/lib/python3.8/site-packages/MDAnalysis/coordinates/PDB.py:432: UserWarning: 1 A^3 CRYST1 record, this is usually a placeholder. Unit cell dimensions will be set to None.\n",
      "  warnings.warn(\"1 A^3 CRYST1 record,\"\n",
      "/srv/conda/envs/notebook/lib/python3.8/site-packages/MDAnalysis/coordinates/PDB.py:432: UserWarning: 1 A^3 CRYST1 record, this is usually a placeholder. Unit cell dimensions will be set to None.\n",
      "  warnings.warn(\"1 A^3 CRYST1 record,\"\n",
      "/srv/conda/envs/notebook/lib/python3.8/multiprocessing/reduction.py:51: UserWarning: Reader has no dt information, set to 1.0 ps\n",
      "  cls(buf, protocol).dump(obj)\n",
      "/srv/conda/envs/notebook/lib/python3.8/site-packages/MDAnalysis/coordinates/PDB.py:432: UserWarning: 1 A^3 CRYST1 record, this is usually a placeholder. Unit cell dimensions will be set to None.\n",
      "  warnings.warn(\"1 A^3 CRYST1 record,\"\n",
      "/srv/conda/envs/notebook/lib/python3.8/site-packages/prolif/plotting/network.py:292: FutureWarning: In a future version, the Index constructor will not infer numeric dtypes when passed object-dtype sequences (matching Series behavior)\n",
      "  pd.get_dummies(\n",
      "/srv/conda/envs/notebook/lib/python3.8/site-packages/prolif/plotting/network.py:292: FutureWarning: In a future version, the Index constructor will not infer numeric dtypes when passed object-dtype sequences (matching Series behavior)\n",
      "  pd.get_dummies(\n"
     ]
    },
    {
     "data": {
      "text/html": [
       "<iframe width=\"100%\" height=\"590px\" frameborder=\"0\" srcdoc=\"\n",
       "        &lt;html&gt;\n",
       "        &lt;head&gt;\n",
       "        &lt;script type=&quot;text/javascript&quot; src=&quot;https://unpkg.com/vis-network@9.0.4/dist/vis-network.min.js&quot;&gt;&lt;/script&gt;\n",
       "        &lt;link href=&quot;https://unpkg.com/vis-network@9.0.4/dist/dist/vis-network.min.css&quot; rel=&quot;stylesheet&quot; type=&quot;text/css&quot; /&gt;\n",
       "        &lt;style type=&quot;text/css&quot;&gt;\n",
       "            body {\n",
       "                padding: 0;\n",
       "                margin: 0;\n",
       "                background: #fff;\n",
       "            }\n",
       "            .legend-btn.residues.disabled {\n",
       "                background: #b4b4b4 !important;\n",
       "                color: #555 !important;\n",
       "            }\n",
       "            .legend-btn.interactions.disabled {\n",
       "                border-color: #b4b4b4 !important;\n",
       "                color: #555 !important;\n",
       "            }\n",
       "        &lt;/style&gt;\n",
       "        &lt;/head&gt;\n",
       "        &lt;body&gt;\n",
       "        &lt;div id=&quot;mynetwork&quot;&gt;&lt;/div&gt;\n",
       "        &lt;div id=&quot;networklegend&quot;&gt;&lt;/div&gt;\n",
       "        &lt;script type=&quot;text/javascript&quot;&gt;\n",
       "            \n",
       "        var ifp, legend, nodes, edges, legend_buttons;\n",
       "        function drawGraph(_id, nodes, edges, options) {\n",
       "            var container = document.getElementById(_id);\n",
       "            nodes = new vis.DataSet(nodes);\n",
       "            edges = new vis.DataSet(edges);\n",
       "            var data = {nodes: nodes, edges: edges};\n",
       "            var network = new vis.Network(container, data, options);\n",
       "            network.on(&quot;stabilizationIterationsDone&quot;, function () {\n",
       "                network.setOptions( { physics: false } );\n",
       "            });\n",
       "            return network;\n",
       "        }\n",
       "        nodes = [{&quot;id&quot;: &quot;ALA99.A&quot;, &quot;label&quot;: &quot;ALA99.A&quot;, &quot;color&quot;: &quot;#59e382&quot;, &quot;shape&quot;: &quot;box&quot;, &quot;borderWidth&quot;: 0, &quot;physics&quot;: true, &quot;mass&quot;: 2, &quot;group&quot;: &quot;protein&quot;, &quot;residue_type&quot;: &quot;Aliphatic&quot;}, {&quot;id&quot;: &quot;VAL111.A&quot;, &quot;label&quot;: &quot;VAL111.A&quot;, &quot;color&quot;: &quot;#59e382&quot;, &quot;shape&quot;: &quot;box&quot;, &quot;borderWidth&quot;: 0, &quot;physics&quot;: true, &quot;mass&quot;: 2, &quot;group&quot;: &quot;protein&quot;, &quot;residue_type&quot;: &quot;Aliphatic&quot;}, {&quot;label&quot;: &quot; &quot;, &quot;shape&quot;: &quot;dot&quot;, &quot;color&quot;: &quot;black&quot;, &quot;size&quot;: 5.6000000000000005, &quot;id&quot;: 0, &quot;x&quot;: -1.871091491105752e-14, &quot;y&quot;: 52.500000000000014, &quot;fixed&quot;: true, &quot;group&quot;: &quot;ligand&quot;, &quot;borderWidth&quot;: 0}, {&quot;label&quot;: &quot; &quot;, &quot;shape&quot;: &quot;dot&quot;, &quot;color&quot;: &quot;black&quot;, &quot;size&quot;: 5.6000000000000005, &quot;id&quot;: 1, &quot;x&quot;: 45.46633369868304, &quot;y&quot;: 26.249999999999982, &quot;fixed&quot;: true, &quot;group&quot;: &quot;ligand&quot;, &quot;borderWidth&quot;: 0}, {&quot;label&quot;: &quot; &quot;, &quot;shape&quot;: &quot;dot&quot;, &quot;color&quot;: &quot;black&quot;, &quot;size&quot;: 5.6000000000000005, &quot;id&quot;: 2, &quot;x&quot;: 45.46633369868302, &quot;y&quot;: -26.250000000000014, &quot;fixed&quot;: true, &quot;group&quot;: &quot;ligand&quot;, &quot;borderWidth&quot;: 0}, {&quot;label&quot;: &quot; &quot;, &quot;shape&quot;: &quot;dot&quot;, &quot;color&quot;: &quot;black&quot;, &quot;size&quot;: 5.6000000000000005, &quot;id&quot;: 3, &quot;x&quot;: -5.852123520010311e-15, &quot;y&quot;: -52.5, &quot;fixed&quot;: true, &quot;group&quot;: &quot;ligand&quot;, &quot;borderWidth&quot;: 0}, {&quot;label&quot;: &quot; &quot;, &quot;shape&quot;: &quot;dot&quot;, &quot;color&quot;: &quot;black&quot;, &quot;size&quot;: 5.6000000000000005, &quot;id&quot;: 4, &quot;x&quot;: -45.46633369868304, &quot;y&quot;: -26.249999999999996, &quot;fixed&quot;: true, &quot;group&quot;: &quot;ligand&quot;, &quot;borderWidth&quot;: 0}, {&quot;label&quot;: &quot; &quot;, &quot;shape&quot;: &quot;dot&quot;, &quot;color&quot;: &quot;black&quot;, &quot;size&quot;: 5.6000000000000005, &quot;id&quot;: 5, &quot;x&quot;: -45.466333698683044, &quot;y&quot;: 26.250000000000007, &quot;fixed&quot;: true, &quot;group&quot;: &quot;ligand&quot;, &quot;borderWidth&quot;: 0}, {&quot;label&quot;: &quot;H&quot;, &quot;shape&quot;: &quot;circle&quot;, &quot;color&quot;: &quot;white&quot;, &quot;font&quot;: {&quot;color&quot;: &quot;grey&quot;}, &quot;id&quot;: 7, &quot;x&quot;: 90.9326673973661, &quot;y&quot;: 52.5, &quot;fixed&quot;: true, &quot;group&quot;: &quot;ligand&quot;, &quot;borderWidth&quot;: 0}, {&quot;id&quot;: -5526610240151572993, &quot;x&quot;: 2.0999999999999823, &quot;y&quot;: 56.13730669589466, &quot;shape&quot;: &quot;text&quot;, &quot;label&quot;: &quot; &quot;, &quot;fixed&quot;: true, &quot;physics&quot;: false}, {&quot;id&quot;: -5334586802401746135, &quot;x&quot;: 47.56633369868304, &quot;y&quot;: 29.887306695894623, &quot;shape&quot;: &quot;text&quot;, &quot;label&quot;: &quot; &quot;, &quot;fixed&quot;: true, &quot;physics&quot;: false}, {&quot;id&quot;: -1988091881038781636, &quot;x&quot;: -2.1000000000000196, &quot;y&quot;: 48.86269330410537, &quot;shape&quot;: &quot;text&quot;, &quot;label&quot;: &quot; &quot;, &quot;fixed&quot;: true, &quot;physics&quot;: false}, {&quot;id&quot;: 1634054394594842203, &quot;x&quot;: 43.366333698683036, &quot;y&quot;: 22.612693304105342, &quot;shape&quot;: &quot;text&quot;, &quot;label&quot;: &quot; &quot;, &quot;fixed&quot;: true, &quot;physics&quot;: false}, {&quot;id&quot;: -3316604748455662137, &quot;x&quot;: 2.099999999999982, &quot;y&quot;: 48.86269330410537, &quot;shape&quot;: &quot;text&quot;, &quot;label&quot;: &quot; &quot;, &quot;fixed&quot;: true, &quot;physics&quot;: false}, {&quot;id&quot;: 111547246840750766, &quot;x&quot;: -43.36633369868304, &quot;y&quot;: 22.612693304105367, &quot;shape&quot;: &quot;text&quot;, &quot;label&quot;: &quot; &quot;, &quot;fixed&quot;: true, &quot;physics&quot;: false}, {&quot;id&quot;: 8609242737074456837, &quot;x&quot;: -2.100000000000019, &quot;y&quot;: 56.13730669589466, &quot;shape&quot;: &quot;text&quot;, &quot;label&quot;: &quot; &quot;, &quot;fixed&quot;: true, &quot;physics&quot;: false}, {&quot;id&quot;: 4657581289932216713, &quot;x&quot;: -47.566333698683046, &quot;y&quot;: 29.887306695894647, &quot;shape&quot;: &quot;text&quot;, &quot;label&quot;: &quot; &quot;, &quot;fixed&quot;: true, &quot;physics&quot;: false}, {&quot;id&quot;: 6467638120008865101, &quot;x&quot;: 49.66633369868304, &quot;y&quot;: 26.249999999999982, &quot;shape&quot;: &quot;text&quot;, &quot;label&quot;: &quot; &quot;, &quot;fixed&quot;: true, &quot;physics&quot;: false}, {&quot;id&quot;: 1096111140488475330, &quot;x&quot;: 49.666333698683026, &quot;y&quot;: -26.250000000000014, &quot;shape&quot;: &quot;text&quot;, &quot;label&quot;: &quot; &quot;, &quot;fixed&quot;: true, &quot;physics&quot;: false}, {&quot;id&quot;: -5279851443163632180, &quot;x&quot;: 41.266333698683034, &quot;y&quot;: 26.249999999999982, &quot;shape&quot;: &quot;text&quot;, &quot;label&quot;: &quot; &quot;, &quot;fixed&quot;: true, &quot;physics&quot;: false}, {&quot;id&quot;: -6444269504304656158, &quot;x&quot;: 41.26633369868302, &quot;y&quot;: -26.250000000000014, &quot;shape&quot;: &quot;text&quot;, &quot;label&quot;: &quot; &quot;, &quot;fixed&quot;: true, &quot;physics&quot;: false}, {&quot;id&quot;: 7079412516727011214, &quot;x&quot;: 47.566333698683025, &quot;y&quot;: -29.887306695894658, &quot;shape&quot;: &quot;text&quot;, &quot;label&quot;: &quot; &quot;, &quot;fixed&quot;: true, &quot;physics&quot;: false}, {&quot;id&quot;: -886431822079647428, &quot;x&quot;: 2.0999999999999934, &quot;y&quot;: -56.137306695894644, &quot;shape&quot;: &quot;text&quot;, &quot;label&quot;: &quot; &quot;, &quot;fixed&quot;: true, &quot;physics&quot;: false}, {&quot;id&quot;: -5642384755814768482, &quot;x&quot;: 43.36633369868302, &quot;y&quot;: -22.61269330410537, &quot;shape&quot;: &quot;text&quot;, &quot;label&quot;: &quot; &quot;, &quot;fixed&quot;: true, &quot;physics&quot;: false}, {&quot;id&quot;: 9018438929073304078, &quot;x&quot;: -2.100000000000005, &quot;y&quot;: -48.862693304105356, &quot;shape&quot;: &quot;text&quot;, &quot;label&quot;: &quot; &quot;, &quot;fixed&quot;: true, &quot;physics&quot;: false}, {&quot;id&quot;: -7722351900534520629, &quot;x&quot;: -2.1000000000000063, &quot;y&quot;: -56.137306695894644, &quot;shape&quot;: &quot;text&quot;, &quot;label&quot;: &quot; &quot;, &quot;fixed&quot;: true, &quot;physics&quot;: false}, {&quot;id&quot;: 7860197796969324884, &quot;x&quot;: -47.56633369868304, &quot;y&quot;: -29.88730669589464, &quot;shape&quot;: &quot;text&quot;, &quot;label&quot;: &quot; &quot;, &quot;fixed&quot;: true, &quot;physics&quot;: false}, {&quot;id&quot;: -5798678738627705179, &quot;x&quot;: 2.0999999999999948, &quot;y&quot;: -48.862693304105356, &quot;shape&quot;: &quot;text&quot;, &quot;label&quot;: &quot; &quot;, &quot;fixed&quot;: true, &quot;physics&quot;: false}, {&quot;id&quot;: 5594130974480711367, &quot;x&quot;: -43.366333698683036, &quot;y&quot;: -22.612693304105353, &quot;shape&quot;: &quot;text&quot;, &quot;label&quot;: &quot; &quot;, &quot;fixed&quot;: true, &quot;physics&quot;: false}, {&quot;id&quot;: 1086113623581081872, &quot;x&quot;: -49.66633369868304, &quot;y&quot;: -26.249999999999996, &quot;shape&quot;: &quot;text&quot;, &quot;label&quot;: &quot; &quot;, &quot;fixed&quot;: true, &quot;physics&quot;: false}, {&quot;id&quot;: -3724157326409965422, &quot;x&quot;: -49.66633369868305, &quot;y&quot;: 26.250000000000007, &quot;shape&quot;: &quot;text&quot;, &quot;label&quot;: &quot; &quot;, &quot;fixed&quot;: true, &quot;physics&quot;: false}, {&quot;id&quot;: -5037362567613820827, &quot;x&quot;: -41.266333698683034, &quot;y&quot;: -26.249999999999996, &quot;shape&quot;: &quot;text&quot;, &quot;label&quot;: &quot; &quot;, &quot;fixed&quot;: true, &quot;physics&quot;: false}, {&quot;id&quot;: -3371160224017930544, &quot;x&quot;: -41.26633369868304, &quot;y&quot;: 26.250000000000007, &quot;shape&quot;: &quot;text&quot;, &quot;label&quot;: &quot; &quot;, &quot;fixed&quot;: true, &quot;physics&quot;: false}];\n",
       "        edges = [{&quot;from&quot;: 0, &quot;to&quot;: &quot;ALA99.A&quot;, &quot;title&quot;: &quot;VdWContact&quot;, &quot;interaction_type&quot;: &quot;VdWContact&quot;, &quot;color&quot;: &quot;#59e3ad&quot;, &quot;smooth&quot;: {&quot;type&quot;: &quot;cubicBezier&quot;, &quot;roundness&quot;: 0.2}, &quot;dashes&quot;: [10], &quot;width&quot;: 6.0, &quot;group&quot;: &quot;interaction&quot;}, {&quot;from&quot;: 7, &quot;to&quot;: &quot;VAL111.A&quot;, &quot;title&quot;: &quot;VdWContact&quot;, &quot;interaction_type&quot;: &quot;VdWContact&quot;, &quot;color&quot;: &quot;#59e3ad&quot;, &quot;smooth&quot;: {&quot;type&quot;: &quot;cubicBezier&quot;, &quot;roundness&quot;: 0.2}, &quot;dashes&quot;: [10], &quot;width&quot;: 6.0, &quot;group&quot;: &quot;interaction&quot;}, {&quot;from&quot;: -5526610240151572993, &quot;to&quot;: -5334586802401746135, &quot;color&quot;: &quot;black&quot;, &quot;physics&quot;: false, &quot;dashes&quot;: [10], &quot;group&quot;: &quot;ligand&quot;, &quot;width&quot;: 4}, {&quot;from&quot;: -1988091881038781636, &quot;to&quot;: 1634054394594842203, &quot;color&quot;: &quot;black&quot;, &quot;physics&quot;: false, &quot;dashes&quot;: [10], &quot;group&quot;: &quot;ligand&quot;, &quot;width&quot;: 4}, {&quot;from&quot;: -3316604748455662137, &quot;to&quot;: 111547246840750766, &quot;color&quot;: &quot;black&quot;, &quot;physics&quot;: false, &quot;dashes&quot;: [10], &quot;group&quot;: &quot;ligand&quot;, &quot;width&quot;: 4}, {&quot;from&quot;: 8609242737074456837, &quot;to&quot;: 4657581289932216713, &quot;color&quot;: &quot;black&quot;, &quot;physics&quot;: false, &quot;dashes&quot;: [10], &quot;group&quot;: &quot;ligand&quot;, &quot;width&quot;: 4}, {&quot;from&quot;: 6467638120008865101, &quot;to&quot;: 1096111140488475330, &quot;color&quot;: &quot;black&quot;, &quot;physics&quot;: false, &quot;dashes&quot;: [10], &quot;group&quot;: &quot;ligand&quot;, &quot;width&quot;: 4}, {&quot;from&quot;: -5279851443163632180, &quot;to&quot;: -6444269504304656158, &quot;color&quot;: &quot;black&quot;, &quot;physics&quot;: false, &quot;dashes&quot;: [10], &quot;group&quot;: &quot;ligand&quot;, &quot;width&quot;: 4}, {&quot;from&quot;: 1, &quot;to&quot;: 7, &quot;color&quot;: &quot;black&quot;, &quot;physics&quot;: false, &quot;group&quot;: &quot;ligand&quot;, &quot;width&quot;: 4}, {&quot;from&quot;: 7079412516727011214, &quot;to&quot;: -886431822079647428, &quot;color&quot;: &quot;black&quot;, &quot;physics&quot;: false, &quot;dashes&quot;: [10], &quot;group&quot;: &quot;ligand&quot;, &quot;width&quot;: 4}, {&quot;from&quot;: -5642384755814768482, &quot;to&quot;: 9018438929073304078, &quot;color&quot;: &quot;black&quot;, &quot;physics&quot;: false, &quot;dashes&quot;: [10], &quot;group&quot;: &quot;ligand&quot;, &quot;width&quot;: 4}, {&quot;from&quot;: -7722351900534520629, &quot;to&quot;: 7860197796969324884, &quot;color&quot;: &quot;black&quot;, &quot;physics&quot;: false, &quot;dashes&quot;: [10], &quot;group&quot;: &quot;ligand&quot;, &quot;width&quot;: 4}, {&quot;from&quot;: -5798678738627705179, &quot;to&quot;: 5594130974480711367, &quot;color&quot;: &quot;black&quot;, &quot;physics&quot;: false, &quot;dashes&quot;: [10], &quot;group&quot;: &quot;ligand&quot;, &quot;width&quot;: 4}, {&quot;from&quot;: 1086113623581081872, &quot;to&quot;: -3724157326409965422, &quot;color&quot;: &quot;black&quot;, &quot;physics&quot;: false, &quot;dashes&quot;: [10], &quot;group&quot;: &quot;ligand&quot;, &quot;width&quot;: 4}, {&quot;from&quot;: -5037362567613820827, &quot;to&quot;: -3371160224017930544, &quot;color&quot;: &quot;black&quot;, &quot;physics&quot;: false, &quot;dashes&quot;: [10], &quot;group&quot;: &quot;ligand&quot;, &quot;width&quot;: 4}];\n",
       "        ifp = drawGraph(&#x27;mynetwork&#x27;, nodes, edges, {&quot;width&quot;: &quot;100%&quot;, &quot;height&quot;: &quot;500px&quot;, &quot;nodes&quot;: {&quot;font&quot;: {&quot;size&quot;: 20}}, &quot;physics&quot;: {&quot;barnesHut&quot;: {&quot;avoidOverlap&quot;: 0.8, &quot;springConstant&quot;: 0.1}}});\n",
       "    \n",
       "        legend_buttons = [{&quot;index&quot;: 0, &quot;label&quot;: &quot;Aliphatic&quot;, &quot;color&quot;: &quot;#59e382&quot;, &quot;group&quot;: &quot;residues&quot;}, {&quot;index&quot;: 0, &quot;label&quot;: &quot;VdWContact&quot;, &quot;color&quot;: &quot;#59e3ad&quot;, &quot;group&quot;: &quot;interactions&quot;}];\n",
       "        legend = document.getElementById(&#x27;networklegend&#x27;);\n",
       "        var div_residues = document.createElement(&#x27;div&#x27;);\n",
       "        var div_interactions = document.createElement(&#x27;div&#x27;);\n",
       "        var disabled = [];\n",
       "        var legend_callback = function() {\n",
       "            this.classList.toggle(&quot;disabled&quot;);\n",
       "            var hide = this.classList.contains(&quot;disabled&quot;);\n",
       "            var show = !hide;\n",
       "            var btn_label = this.innerHTML;\n",
       "            if (hide) {\n",
       "                disabled.push(btn_label);\n",
       "            } else {\n",
       "                disabled = disabled.filter(x =&gt; x !== btn_label);\n",
       "            }\n",
       "            var node_update = [],\n",
       "                edge_update = [];\n",
       "            // click on residue type\n",
       "            if (this.classList.contains(&quot;residues&quot;)) {\n",
       "                nodes.forEach((node) =&gt; {\n",
       "                    // find nodes corresponding to this type\n",
       "                    if (node.residue_type === btn_label) {\n",
       "                        // if hiding this type and residue isn&#x27;t already hidden\n",
       "                        if (hide &amp;&amp; !node.hidden) {\n",
       "                            node.hidden = true;\n",
       "                            node_update.push(node);\n",
       "                        // if showing this type and residue isn&#x27;t already visible\n",
       "                        } else if (show &amp;&amp; node.hidden) {\n",
       "                            // display if there&#x27;s at least one of its edge that isn&#x27;t hidden\n",
       "                            num_edges_active = edges.filter(x =&gt; x.to === node.id)\n",
       "                                                    .map(x =&gt; Boolean(x.hidden))\n",
       "                                                    .filter(x =&gt; !x)\n",
       "                                                    .length;\n",
       "                            if (num_edges_active &gt; 0) {\n",
       "                                node.hidden = false;\n",
       "                                node_update.push(node);\n",
       "                            }\n",
       "                        }\n",
       "                    }\n",
       "                });\n",
       "                ifp.body.data.nodes.update(node_update);\n",
       "            // click on interaction type\n",
       "            } else {\n",
       "                edges.forEach((edge) =&gt; {\n",
       "                    // find edges corresponding to this type\n",
       "                    if (edge.interaction_type === btn_label) {\n",
       "                        edge.hidden = !edge.hidden;\n",
       "                        edge_update.push(edge);\n",
       "                        // number of active edges for the corresponding residue\n",
       "                        var num_edges_active = edges.filter(x =&gt; x.to === edge.to)\n",
       "                                               .map(x =&gt; Boolean(x.hidden))\n",
       "                                               .filter(x =&gt; !x)\n",
       "                                               .length;\n",
       "                        // find corresponding residue\n",
       "                        var ix = nodes.findIndex(x =&gt; x.id === edge.to);\n",
       "                        // only change visibility if residue_type not being hidden\n",
       "                        if (!(disabled.includes(nodes[ix].residue_type))) {\n",
       "                            // hide if no edge being shown for this residue\n",
       "                            if (hide &amp;&amp; (num_edges_active === 0)) {\n",
       "                                nodes[ix].hidden = true;\n",
       "                                node_update.push(nodes[ix]);\n",
       "                            // show if edges are being shown\n",
       "                            } else if (show &amp;&amp; (num_edges_active &gt; 0)) {\n",
       "                                nodes[ix].hidden = false;\n",
       "                                node_update.push(nodes[ix]);\n",
       "                            }\n",
       "                        }\n",
       "                    }\n",
       "                });\n",
       "                ifp.body.data.nodes.update(node_update);\n",
       "                ifp.body.data.edges.update(edge_update);\n",
       "            }\n",
       "        };\n",
       "        legend_buttons.forEach(function(v,i) {\n",
       "            if (v.group === &quot;residues&quot;) {\n",
       "                var div = div_residues;\n",
       "                var border = &quot;none&quot;;\n",
       "                var color = v.color;\n",
       "            } else {\n",
       "                var div = div_interactions;\n",
       "                var border = &quot;3px dashed &quot; + v.color;\n",
       "                var color = &quot;white&quot;;\n",
       "            }\n",
       "            var button = div.appendChild(document.createElement(&#x27;button&#x27;));\n",
       "            button.classList.add(&quot;legend-btn&quot;, v.group);\n",
       "            button.innerHTML = v.label;\n",
       "            Object.assign(button.style, {\n",
       "                &quot;cursor&quot;: &quot;pointer&quot;,\n",
       "                &quot;background-color&quot;: color,\n",
       "                &quot;border&quot;: border,\n",
       "                &quot;border-radius&quot;: &quot;5px&quot;,\n",
       "                &quot;padding&quot;: &quot;5px&quot;,\n",
       "                &quot;margin&quot;: &quot;5px&quot;,\n",
       "                &quot;font&quot;: &quot;14px &#x27;Arial&#x27;, sans-serif&quot;,\n",
       "            });\n",
       "            button.onclick = legend_callback;\n",
       "        });\n",
       "        legend.appendChild(div_residues);\n",
       "        legend.appendChild(div_interactions);\n",
       "        \n",
       "        &lt;/script&gt;\n",
       "        &lt;/body&gt;\n",
       "        &lt;/html&gt;\n",
       "    \"></iframe>"
      ],
      "text/plain": [
       "<IPython.core.display.HTML object>"
      ]
     },
     "execution_count": 26,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "from prolif.plotting.network import LigNetwork\n",
    "\n",
    "fp = plf.Fingerprint()\n",
    "fp.run(u.trajectory[::10], lig, prot)\n",
    "df = fp.to_dataframe(return_atoms=True)\n",
    "\n",
    "net = LigNetwork.from_ifp(\n",
    "    df,\n",
    "    lmol,\n",
    "    # replace with `kind=\"frame\", frame=0` for the other depiction\n",
    "    kind=\"aggregate\",\n",
    "    threshold=0.3,\n",
    "    rotation=270,\n",
    ")\n",
    "net.display()"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "# Top 3 docked pose ligand extraction"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 27,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "1 molecule converted\n",
      "1 molecule converted\n",
      "1 molecule converted\n"
     ]
    }
   ],
   "source": [
    "!grep UNL combined1.pdb > UNL1.pdb\n",
    "!obabel -ipdb UNL1.pdb -osdf -O UNL1.sdf \n",
    "!grep UNL combined2.pdb > UNL2.pdb\n",
    "!obabel -ipdb UNL2.pdb -osdf -O UNL2.sdf \n",
    "!grep UNL combined3.pdb > UNL3.pdb\n",
    "!obabel -ipdb UNL3.pdb -osdf -O UNL3.sdf "
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "#### Change ligand name to same as protein name, this is the requirement of Charm GUI HTS"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [],
   "source": [
    "!mv UNL1.sdf combined1.sdf\n",
    "!mv UNL1.sdf combined1.sdf\n",
    "!mv UNL1.sdf combined1.sdf"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "# Molecular dynamics"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## From this point, depends on your needs. If you are confident about pose top 1, then you may want just upload combined.pdb and combined.sdf to solution builder for the purpose of a general simulation \n",
    "\n",
    "Or\n",
    "\n",
    "### If you are not confident about docked pose 1, it is suggested you upload all top 3 poses to High throughtput simulator (HTS)to generate a HTS simulation input file."
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## For example, you just want to a general simulation. Upload combined.pdb and UNL.sdf to solution generator to generate MD inputs file\n",
    "#### Note in the image below, the ligand is still named as UNL.sdf, but for HTS you have to rename it as combined1.sdf"
   ]
  },
  {
   "attachments": {
    "a59f2c11-b2ea-48df-88bc-5d05c616f96b.png": {
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"
    }
   },
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "![image.png](attachment:a59f2c11-b2ea-48df-88bc-5d05c616f96b.png)"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "### I recommend OpenMM if you want a suggestion, its speed is one of the best and freely avaliable"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "# Thanks for using this workflow, if you find this is helpful. Please follow https://github.com/quantaosun for more interesting workflows."
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {
    "id": "CoByyqgKY_h1"
   },
   "source": [
    "# References\n",
    "\n",
    "All the dependencies used are open soured, they are \n",
    "\n",
    "*   rdkit\n",
    "*   openbabel\n",
    "*   py3Dmol \n",
    "*   pymol-open-source \n",
    "*   smina.static\n",
    "*   MDAnalysis\n",
    "*   ProLif\n",
    "*   Python 3.8\n",
    "*   conda\n",
    "*   colab conda\n",
    "\n",
    "- This notebook has referred [Is life worth living](https://www.cheminformania.com/ligand-docking-with-smina/)\n",
    "- Thi notebook has referred [Jupyter Notebook for docking either locally or using Colab](https://www.macinchem.org/reviews/JupyterDocking/jupyterdocking.php)\n",
    " "
   ]
  }
 ],
 "metadata": {
  "colab": {
   "name": "Free_Cloud_Docking.ipynb",
   "provenance": []
  },
  "kernelspec": {
   "display_name": "Python 3 (ipykernel)",
   "language": "python",
   "name": "python3"
  },
  "language_info": {
   "codemirror_mode": {
    "name": "ipython",
    "version": 3
   },
   "file_extension": ".py",
   "mimetype": "text/x-python",
   "name": "python",
   "nbconvert_exporter": "python",
   "pygments_lexer": "ipython3",
   "version": "3.8.16"
  },
  "toc-autonumbering": true,
  "toc-showmarkdowntxt": false
 },
 "nbformat": 4,
 "nbformat_minor": 4
}
